Did you know there’s a right way to harvest basil to ensure they flourish and you get to enjoy continuous yield? That’s right! So, learning how to pick basil the right way is important and we will teach you how.
The sweet aromatic and tasteful basil is one popular herb loved by many. It is a culinary herb that any kitchen lover can use for various dishes. The tasteful basil herb is even more distinguishable when grown and used fresh from the garden. Therefore, you would agree that it’s a must-have in every garden.
When growing basil plants, how you pick them matters and we will enlighten you on this. So continue reading to find out.
Growing Basil Plants
There are different varieties of basil to grow, but sweet basil is the most common type of basil grown. Other types of basil include Thai basil, cinnamon basil, purple basil, lemon basil, etc.
Basil plants can be grown both hydroponically and in an outdoor garden. However, it will only grow outdoors during summer when the soil is warm. But with hydroponics, you can grow them all year round.
Planting Basil
To commence basil planting, get your seeds and plant them. You can plant them indoors if you wish. Preferably, you should plant them 6 weeks before the last spring frost. They are pretty frost sensitive so ensure you insulate them during freezing temperatures or bring them indoors if you’re growing with a container.
Once the seedlings have begun yielding their first 6 leaves, trim them to the top of their second set of leaves. This will stimulate your basil plant to start branching. Thus, this will encourage the multiplication of leaves for an abundant harvest.
Pinch off the middle shoot once it’s 6 weeks as this will prevent early flowering. And if you notice any flowers growing, simply cut them off so that the vegetative process will keep ongoing.
Basil can be grown in flower beds or containers. For outdoors planting, ensure the soil has warmed up to about 50 to 70 degrees Fahrenheit. This is crucial because heat is necessary for the growth of your basil. Choose a sunny location to plant your basil and target 6 to 8 hours full or partial sun daily.
Moisture is another important factor in planting basil. Basil plant loves moisture so ensure the soil is well moist but not soggy and ensure the soil should be well-draining.
Avoid using pesticides on your basil if they’re meant for cooking as this can produce unhealthy basil leaves to be consumed. Also, avoid planting them close to a driveway or busy streets to prevent exhaust from settling on your plants.
Once, the freezing temperature approaches, harvest your basil plants because your plants will be destroyed during this period.
Best Way To Harvest Basil
The following guidelines will teach you how to pick basil correctly so read on to learn.
Best Time For Picking Basil
It’s fine to pick basil any time of the day. However, morning is the best time to harvest basil but that does not stop you from harvesting them at period.
Learning How To Pick Basil
When you harvest your basil plants the appropriate way, you’re encouraging a fuller and bountiful subsequent harvest.
Once your basil plant attains the length of 6 inches, that’s the right time to harvest: ensure your basil plant does not exceed 8 inches.
Pick your basil from stem to stem and avoid cutting off the stem. Be gentle as you pinch off the leaves from the stem they are attached to. Avoid using sharp tools to cut the leaves only if you will be careful enough from injuring the stem.
Ensure you always pick the leaves from time to time to enhance more growth. However, you should avoid picking the basil leaves from the bottom stem to prevent your plant from being thin and tall as this will not encourage a healthy production.
Don’t stop harvesting even if you don’t need the basil leaves so as to encourage continuous growth. You can pick and store the basil leaves for later use. Pinch off or remove any flower bud or flower so your basil plant can grow more leaves rather than flowers.
When their growing season has ended, (this is before the first frost) you can cut the stem off the ground. Harvest all your basil and bring them indoors for cooking. The excess basil leaves should be preserved for later use.
It is important you also learn how to store basil correctly. This is because it’s likely you pick the leaves regularly and excess basil might remain and you won’t want to just throw the excess basil away. So here are the two ways you can store your basil leaves:
Freezing: To store your basil leaves appropriately, you will need to freeze them. When you freeze them, they remain fresh and most of their tasty flavor is kept intact. You will need to pack them in a resalable airtight plastic bag to store them. Then you proceed to place them in the freezer.
Drying: Drying is another method of storing your excess basil leaves. However, some flavor will be lost in this process. You can dry your basil by spreading them in a shady area for 3 or 4 days. If you have done this after 3 or 4 days and they aren’t dried completely, you can finish drying them in the oven. Simply turn your oven to the lowest heat and leave the door slightly open. Turn them regularly for an even drying till you achieve all your basil leaves all dried. When they are done drying, put them in a dry paper bag and keep them in a warm place like your kitchen cupboard.
Storing Fresh Basil In Water: If you wish to cut the stem of your basil, you can place them inside a glass jar. Keep them out of direct sunlight and they will last you up to two weeks.
FAQ’s
How do you pick basil so it keeps growing?
The secret to success is to pick basil when it’s at its best, and then leave it alone. But you don’t have to wait until you see a whole bunch of leaves to pick your basil. You can harvest a few leaves off the stems every few days to keep the plant healthy. And if you have a big pot, you can harvest as many leaves as you want from the center of the plant.
How do you keep basil from getting too big?
There are several ways to keep basil plants from getting too big. You can pinch off the side shoots as they appear. Or you can cut off the top of the plant when it reaches 6 inches tall. Or you can wait until the plant gets bigger and then use pruning shears to remove the center stems.
Do you pick fresh basil from the top or bottom?
The best and freshest basil is picked from the top of the plant. In other words, it is picked at the stem end.
How do you pick basil without killing it?
The most common way to select a bunch of basil for your cooking is to look for the greenest leaves. If they are not quite as dark green as the leaves of a leek, or if the leaves have started to yellow, they are probably ready to be picked. The other method is to smell the leaves. If the scent is sweet, like that of oregano, they are ready to use.
When can I pick basil leaves?
The plant itself doesn’t have an ‘exact’ time when it will be ready to harvest. In general, as long as the leaves are still green (unripe), you can harvest them. You can start harvesting basil as soon as the weather is warm enough to grow it outside. As long as it’s not too hot or cold, you should be able to get some good leaves from your plants.
How do I know if my basil plant needs to be watered?
Basil doesn’t like hot and dry weather. When the air is hot and dry, your basil may wilt and look sickly. You can help your plant by giving it a drink of water. If you see that your plant looks pale or droopy, give it another drink of water.
How do I keep basil from getting moldy?
Basil plants can get moldy in the summer months when the weather is very hot and humid. You can prevent this problem by keeping your basil in a place where the temperature stays cool, like a basement or a garage. You should also make sure your basil has plenty of moisture by watering it regularly.
How To Pick Basil: Conclusion
As we can see there are great benefits to picking your basil the appropriate way. Follow our guidelines on how to pick basil and enjoy a continuous harvest of the tasteful basil herb.
Are you wondering if COB (Chip On Board) LEDs are better for growing plants than other types of LED? You’ve probably heard of different talks on how COB LED grow lights are one of the best in the market. But is this really true?
Well, it is true that COB LED lights offer some great advantages to growing plants. COB LED lights are definitely better than normal LED and some other types of LED because they offer more diodes and better lumen.
Let’s take a look at some information on COB LED light, their features, and many more. So keep reading to learn more info.
What Is A COB LED?
The manner in which LED diodes are packed together is generally known as a chip on board (COB). They are the new LED technology and are packed together to form a single and powerful light source.
A lot of tiny LEDs are arranged side by side of each other on a substrate to form one single module. Thus, they are packed together to give a single and highly powerful light source.
Generally, there are two types of LED lights and they are chip on board, COB, and the surface mount diode, SMD. Just like COB LED lights are great for growing, SMD LED lights are also fine. Both devices have their benefits. But let’s find out if COB LEDs are better than other types of LED.
What Is SMD Light?
Before we look into if COB LEDs are better, let’s take a look at the surface mount device. Surface mount device SMD is the most common type of LED light sold in the market. The LED chips are merged to form a print circuit board (PCB) which is established on a flat object that is rectangular in shape.
SMD has the ability to accommodate 3 diodes on the same chip and it can work with up to 6 contacts. It can also work with different colors and can create any color by adjusting the output level from each diode on the chip.
Are COB LEDs Better? Advantages Of LED COB
Here are some benefits you stand to gain growing with COB LED lights:
Highly Efficient: Using COB LED lights to grow for your indoor growing plants are better because they offer more input power. Thus, you get better efficient input with lesser power consumption.
Excellent Light Spectrum For Plants: They are available in different colors. Thus, they will offer your plants the right spectrum for your plants‘ growing needs.
Deep Plant Canopy Penetration: COB penetration goes very deep and will even penetrate far beneath your plants’ canopy. This is thanks to their large LED chip that is more powerful compared to a single diode.
Better Light Density: Their tightly packed small diodes allow them to offer much better and higher light density.
Higher Light Speed: Unlike other smaller light fixtures that need to spreads out from a central point, COB will cover the plants more evenly. This is because COB lights are arranged apart on a large fixture thereby encouraging better light speed that will cover your plants evenly.
Minimal Heat: COB lights are known to emit lower heat making them safe to be placed close to plants.
Disadvantages Of COB LED Light
The disadvantages of using COB LED light are not so much. So let’s look at their disadvantages:
One major disadvantage of using COB LED lights is that if one of the lights fails or spoils, you would have lost that particular or entire fixture. Now, if you were making use of the only COB LED lights for your entire to grow space, one failed COB light means a large portion of light has been lost. This is because it will affect a large part of your light.
Are COB LEDs Better: COD Vs. SMD LED Light
Both COB and SMD LED lights are great. However, let’s look at how both advantages over the other:
More Diode: Both COB and SMD LED lights have multiple diodes. However, COB chips have up to 9 or more diodes while SMD has 3 diodes on a single chip. Thus COB lights will offer more light intensity, thereby making them more effective.
Efficiency: The efficiency of these two LEDs works at various rates and that’s because they are built with different features. Talking about SMD, the efficiency is not so great but it will still get the job done. COB on the other hand will offer your garden optimal productivity. Thus, making them an excellent option for plant growing requirements.
Color Temperature: The color temperature in SMD is more flexible as there is a possibility of changing colors. It offers varieties of colors because of the primary color used in SMD. COB on the other hand does not offer color change flexibility. They are built to adhere to a single color temperature.
Affordability: Generally, LED lights are cost-effective and are more durable. LED lights also consume minimal energy, thus saving you on the energy bill. Thus, both SMD and COB are affordable. However, if we want to look at it from the manufacturing cost, SMD will be more costly than COB. The material cost for SMD is around 15%, while COB material cost about 10% of the manufacturing cost.
Brightness: The lumen generated by the chips will greatly depend on the brightness. SMD LED makes use of about 50 to 100 lumen per watt. COB works with a higher lumen and the least value is 80 lumen per watt. Thus COB LED lights give more brightness.
FAQ’s
What are the problems with COB LED’s?
Some people feel that COB LED lights are one of the worst types of light for growing plants.
The problem with COB LED lights is that they only emit light in one direction. This means that all of the light that is emitted is right at your plants.
In fact, it is possible that every single ray of light that comes out of your COB LED light will be hitting your plant. This means that all of the light energy that comes out of the COB LED light is wasted. One way to look at this is that it is like trying to grow plants in an aquarium. It is impossible to get enough light into the aquarium because all of the light that is coming in is hitting the glass. If you were to move the plants out of the aquarium then you could see the full effect of the light. You would see that the plants were getting more light than they ever did in the aquarium. There are many other disadvantages to COB LED lights. They do not emit enough light to grow plants. They are expensive and they use a lot of energy. COB LED lights are also very loud.
How do you choose between COB LED lighting and traditional incandescent or halogen lights?
Well, that’s where it gets tricky. So if you’re looking for an LED light to replace your old light, here are some things to consider: Does it need to be bright? You don’t want a super bright light, because the cost is just going to be astronomical. If you can get away with a 50W or 75W light, that will usually be the best bet.
How long do COB LEDs last?
The lifespan of a COB LED is typically measured in years, not months. For example, the Cree XP-E2 is rated for 5,000 hours. It is also designed to have a very high lumen output (2700 lumens) with an average CRI of over 90. However, the lifespan is more than likely going to be shorter than what is stated on the product label.
Are COB LEDs Better: Final Thoughts
On our final thoughts on if COB LEDs are better; we would say both COB and SMD LED lights are great for growing. This is because LED lights are generally superior compared to other types of light.
However, we have seen that COB stands out in terms of its brightness and other great features they offer.
Do you know if aerating water for your plants is necessary? Well, definitely yes! Have you ever wondered how plants can sit a long time in a hydroponic system without drowning? The trick is the air supplied. If you don’t provide your hydroponic plants with adequate oxygen, they will drown or suffocate.
The root of plants must be supplied with air for optimal growth so aerating water for plants is important. So, plants require oxygen to breathe or respire.
In this post, we will be talking about how to aerate your plants, the importance of aerating your plants, and more. So, read on to learn about this.
How To Aerate Water For Plants
When you aerate your water for hydroponic plants, you’re introducing dissolved oxygen (DO) to the system. The dissolved oxygen is usually ready to be assimilated by the plant roots. So, we can aerate our hydroponic system in the following ways:
1. Airstone With Air Pump
One of the easiest ways of aerating water for plants is by using air stone connected to an air pump. They are very affordable and easily accessible. Air stones also come in different sizes and shapes, thus you will always find one that is suitable for your hydroponic system.
So, air stone provides oxygenation by pushing the air pump through the stones. Because the air stone is quite porous, the air is split into a large bunch of bubbles. However, this large bubble may not be so efficient. This is because large bubbles tend to rise rapidly and they may end up not reaching plant roots.
The good news is that the air stones we find in the market now generate smaller bubbles. Thus, this makes their job done more efficiently.
2. Automatic Siphon System
The automatic siphon mechanism provides air to the plants by exposing the plant root system. This process is common in the ebb and flow system whereby the grow bed is drained and the plant root system is exposed to air.
The automatic siphon system comes in various forms. They include loop, bell, and U shape and all of these mechanisms work on the same principle.
The mechanism of action works this way: when the water level in the grow bed moves up and rises, it gets to a point it begins to go down. The water levels go down a tube called the standpipe. As the standpipe fills up, there is a suction created with a vacuum that pulls the water away from the grow bed.
So the plant root is exposed to air for a while and the water goes up again and the process repeats on and on.
Using an air diffuser is another method of supplying aerated water to your plant root. Air diffusers comprise bendable tubes with holes in them that help emit air into water. Even though air stones are capable of distributing air evenly, air diffusers will supply smaller bubbles. Thus, most of these smaller bubbles usually get to the plant roots.
This is the biggest advantage of air diffusers over air stones (bubbles size). However, various brands are now manufacturing sir stones with smaller bubbles because of the growing interest in hydroponics.
4. Oxygen Gap
Some hydroponics system like Kratky method and NFT offers oxygen through an air gap. The nutrient solution should be placed in the grow bed. Allow the plant root to touch the nutrient solution and leave a gap for the rest of the plant body. There will always be enough air between the air gap created and the nutrient solution that will ensure the plant receives oxygen.
5. Root Hanging
The last method we will be looking at for aerating water for plants is root hanging. Vertical and Aeroponic system often makes use of root hanging. Rather than allowing the root to sit in a nutrient solution, the nutrient solution can simply be splashed or pumped across the system and comes back to the reservoir. Vertical hydroponics makes use of pumping nutrients. On the other hand, the Aeroponic system makes use of spraying their nutrient solution.
Importance Of Aerating Water For Plants
Aerating your water for plants is very crucial when it comes to hydroponic gardening. So, let’s look at the importance of aerating the water in your plants for their optimal growth:
Nutrient Uptake: aerating your water for plants is important so that nutrients can be adequately absorbed by the plants’ roots. Thus, when your plants can absorb adequate nutrients, they will grow healthier and result in abundant yield.
Bacteria Build-up Is Reduced: with optimal dissolved oxygen, the roots are able to respire and there will be a drastic decrease in bacteria build-up. However, if the dissolved oxygen drops, it will cause anaerobic bacteria and fungi to build up. These bacteria build-up affects the plant root and restricts the roots from absorbing important nutrients. So, we definitely want to avoid such.
Respiration: just as animals and human beings respire, plants also respire. Oxygen is assimilated through the roots of the plants. This same oxygen is also absorbed through the plants’ stomata as well as their stem pores.
Aerating Plants In The Soil
Plants in the soil aren’t left out from dissolved oxygen (DO). They also assimilate important nutrients in the soil through oxygenation. Of course, the air present in the atmosphere provides these soil plants oxygen. Plants can also receive oxygen through air pockets in the soil.
They can also obtain dissolved oxygen from nature through rainwater. Rainwater assimilates dissolved oxygen from the atmosphere before reaching the earth or soil.
However, over-watering your plants can prevent the soil plant from accessing these air pockets thereby reducing dissolved oxygen. This will in turn cause your plant to drown or suffocate. So, ensure you don’t overwater your soil plants.
FAQ’s
What is aeration?
Aeration is the process of adding oxygen to your aquarium or pond water. This is done by placing a sponge, air pump, or other air diffuser in the water and allowing the water to circulate. It is also possible to place an air stone directly into the water and allow it to bubble. Aeration is especially useful for aquariums or ponds that have very little movement in the water.
The increased oxygen levels will encourage more fish, plants, and invertebrates to inhabit the tank or pond.
What is a sponge?
Sponges are made up of tiny pockets, called spicules, which are packed tightly together to form a strong and resilient structure. They are usually soft and absorbent, and can be found in both marine and freshwater environments. A marine sponge is often used as an underwater filter. Sponges are also used as filters on land, since they can absorb pollutants from the air as well as water.
What is an air pump?
Air pumps are small, portable devices that use compressed air to create bubbles that are dispersed through a diffuser. Air pumps are available in many different sizes and types. Most people use air pumps to aerate their aquariums, ponds, and water gardens.
The air pump is one of the most essential tools for any aquarist. It is used to create bubbles, which helps oxygenate the water and remove ammonia and nitrates.
What is an air stone?
An air stone is a small device that creates bubbles. There are several different types of air stones available. Some of these air stones can be attached to a tank or pond for continuous bubbling. Others require manual operation, and are often used to aerate water when it is not being filtered or pumped.
What is a bubble wort?
A bubble wort is a piece of equipment that uses bubbles to aerate water. Bubble worts are typically used on a regular basis, so the bubbles will continue to disperse throughout the tank or pond. The bubbler must be used with the air pump to produce the bubbles.
How important is considering the water for plant growth?
Water is a very important part of your garden. It’s what keeps the plants alive and allows them to grow. If you water your plants too often, it will cause the soil to become dry and compacted. This will lead to slower plant growth and can even kill them! If you don’t aerate your soil every few months, it can actually cause your plants to be more susceptible to diseases.
Aerating Water For Plants Final Thoughts
There are lots of benefits to aerating water for your plants growing needs. Ensure you provide optimal air to your plants’ roots so they can flourish and give you abundant yields.
You may be wondering what smart size pot you should grow for your indoor garden. We’ve got the answer for you here.
Pots come in various shapes and sizes but the important thing is do you know which to go for? Too small a pot may limit your plants’ growth. While too big pot may occupy all the space which will make you require lots of soil.
We’ve got some information for you when it comes to what size smart pot to grow for your indoor garden. So, let’s get right into it.
What Size Smart Pot Is Required For Indoor Grow
There are lots of benefits when you start growing with smart pots that you may end up not going back to regular pots after your experience.
When it comes to what size smart pot for indoor grow, finding the appropriate size is crucial to your plant’s growth. The good news is that there is a general rule as to which size to choose. So, this general rule tells us to pick a smart pot that is double the size of our regular pot.
Take, for instance, if you would normally make use of a 2-gallon regular pot size then you should go with a smart pot size of about 5 gallons.
This is because smart pots have a great draining system that allows for optimal airflow. So, smart size pot tends to dry out faster. For this reason, there’s no issue of over-watering. The only thing is it will require you to water more frequently. The pot may dry out completely within a day or two using a 5-gallon size.
Smart Pot Sizes To Use For Indoor Grow
What size smart pot you should use for indoor grow will depend on the type of plants you’re growing. Ideally, most plants will require a 5-gallon size smart pot.
But if you’re looking at allowing your plant to grow bigger (vertically or horizontally) you will need a bigger pot. You can go as high as 7 to 10 smart size gallon pot or even 15-gallon depending on how big you want your plant to grow.
Another thing you might want to know is if you can grow more than one plant in a single smart pot. Well, this is quite possible. You can have 2 or 3 plants in a 15-gallon smart pot. However, we would not encourage you to do this.
This is because there will be competition for resources between plants. If you want to grow more than one plant, it is better or advisable to just obtain a smaller size smart pot for each plant.
The smart size encourages easy root networks and there’s no issue of root-bound. Unlike the regular pot or container, roots may run into edges thereby causing a spaghetti-like, tangled-up root mess. Now, this may cause plant choking at the end causing root-bound.
But with a size smart pot, there is an easy series of root networks that allows for optimal air circulation. It also gives the wall of the root an air prune root.
No Over-watering Issue
Over-watering is one thing you can never worry about when using a size smart pot for growing. The smart pot enables easy flow of excess water which helps the soil dry out thereby no water logging issue. However, this implies you watering your plant from time to time as your soil dries out.
Encourages Rapid Growth
Because of the good root network formation and excellent oxygen flow, this encourages rapid growth. The oxygen encourages faster growth, especially in the vegetative phase.
Encourages Short Or Wider Growth Space
Unlike regular pots, smart-sized pots are broader and shorter in size. Thus, it encourages your plant to grow wide rather than tall. Therefore, this will save you vertical space.
No Tipping Over Of Plants
You can grow large plants and train them to grow wider with smart pot size. So, because they grow wider, it’s rare for them to tip over no matter how big your plant grows.
Portable
Another advantage we admire is smart pot portability. You can purchase a smart size pot you can carry if you plan to move your container around. Using a 10-gallon smart size pot will weigh about 50 pounds when filled with soil and water. You should ask yourself if you can move this much around.
Smart pots dimensions:
20 gal size- 20 x 20 x 15.5 inches; 10.24 Ounces
10 gal size- 16 x 16 x 11.5 inches; 5.28 Ounces
5 gal size- 12 x 0.5 x 12.5 inches; 5.29 Ounces
Draw Backs Of Growing With Smart Pots Sizes
Even though growing with smart size pots offers lots of benefits, there are still some disadvantages to it. So, let’s take a look at some of them:
Excess Water Runoff & Requires More Watering
Smart size pots are not capable of holding water for long as there is an excess flow of water. You will also require a bigger growing tray to collect excess water and also empty them accordingly. Also, as the water dries out faster, you will need to catch up on watering your plants more frequently.
Space Requirement
There is also the need for more horizontal space. Therefore, you may find it a bit hard to fit them in a portable grow tent unlike fitting a regular container. Now, the big tray which collects excess water will even take more space.
But on the good side, training your plants to grow wide or horizontally will allow you to manage the situation well.
FAQ’s
What should determine the size of smart pot that I use?
The best thing about smart pots is that they are easy to use. You don’t need any special skills to grow plants in one. All you need is a small amount of money and a smart pot. The best way to learn how to grow plants in a smart pot is to buy one and get growing!
There are a few things that will determine how big your smart pot should be for your plants. The size of the plant itself, the space it takes up in your room and whether you plan to use it outside or not. You just need to know which plants you want to grow and what size smart pot you want to use. The size of the pot is also determined by the number of plants you will be growing. If you are planning on growing one plant per pot then you can expect to need a smaller pot than if you want to grow more than one plant per pot.
If you are growing your plants outside then the size of the pot will depend on how much sun and wind you will be getting. If you have a shady patio then you will probably want a larger pot than if you have a sunny garden. The space in your room will also determine the size of the pot you need. If you have a small room then you will need a smaller pot than if you have a large room. You also need to consider whether you plan to use your smart pot as an indoor or outdoor container. If you plan to use it outside then you will need a larger pot than if you are going to keep it indoors. There is no reason why you can’t grow plants in smart pots if you live in a place that has good weather and enough sun.
What’s the best smart pot for indoor use?
There are so many options and they are all different sizes. You want something that is going to give you the most light for your money. You want to be able to use it with different types of lights. You want to be able to move it around to change the angle of the light, and be able to get the best light from any direction.
The best smart pot for indoor growers is the smallest size. A small grow light can fit into a space that may have been used for other things. A small smart pot can provide just the right amount of light and nutrients. It is also easy to clean.
Are their sizes good options for indoor cannabis cultivation?
The smart pots grower system is a great solution for small to medium sized cannabis growers who want to grow indoors in an eco-friendly way. They have many advantages and benefits over traditional growing systems.
The smart pots grower system also allows you to monitor and control your plant growth remotely. If you notice any problems with your plants, you can do something about it right away and keep track of individual plants.
And if you use a smart pot, you don’t need to use soil or soil blocks. This means that you can save money and not have to buy expensive soil for your plants. You can also use a variety of different soils if you like. All you need to do is put the potting soil into the smart pot, water it well, and then place your plant inside. You don’t need to worry about any soil particles getting into your plants. All of this in a smaller pot for your pot plants!
What Size Smart Pot For Indoor Grow Final Say
When it comes to what size smart pot for indoor grow, the least size should be 5-gallon as this is ideal for most growers. You can as well move to 7 gallons if you want a bit bigger plant. Now, if you desire to grow a larger plant, you should go for a 10 or 15-gallon size.
So, we hope this post has helped you in choosing the right size smart pot for your plant growing needs.
Also, note that when it comes to using fluorescent grow lights, anything higher than 12 inches from your plants’ canopy may mean your plants aren’t getting good light energy. This is because fluorescent light strength decreases when the height is too far from the plants’ canopy. So, ensure they are close enough to your plant as they are safe to be positioned close to plants.
How Far Should LED Grow Light Be From Plants?
LED grow lights are one of the most popular lights to use for indoor gardening. They are also safe to use at an appropriate close range on plants and they don’t emit much heat. LED grow lights are as well strong and efficient and can be used for different plant growth stages. They are majorly used in the flowering and fruiting stages.
When it comes to using LED grow lights, there is no particular rule to their positioning. But as a recommended tip, they can be placed around 12 to 18 inches above the plants’ canopy.
However, there are many types and brands of LED grow light that offers different output so deciding the appropriate distance may be tricky. The good thing is most times when you purchase LED grow lights, the manufacturer usually puts a recommended hanging height to follow. You can start with the manufacturer’s recommended hanging distance.
After trying the manufacturer’s recommended hanging distance, you can go ahead and move it a bit closer to get the perfect distance. Do these until you get to a point where your plants start to bleach. Also, you need to always monitor your plants when trying new grow lights. Move them back immediately when you notice any signs of discomfort in the plants.
By doing this, you will have mastered the right hanging distance for your plants for them to receive optimal light for their growing needs. Also, you may need to adjust the grow light upwards as your plants grow taller and develop.
When choosing an HPS light, it should not be about wattage. Instead of paying attention to the wattage of the grow light, it is more important to understand how the light spectrum works. This is so you can know which grow light and light spectrum to get for the stage of growth that your plants are at.
The grow light spectrum is measured in micromoles (µmol). Generally, you will need a light spectrum in the range of 180 to 1300 µmol. This is quite a wide range, therefore you would need to determine the light requirements of your plants. The more light-hungry your plants are, the higher the light spectrum you should get.
Certain plant families such as those of the Cannabaceae are on the upper end of the spectrum. They need a minimum of 800 µmol to reach 85% of their growth potential and up to 1300 µmol to reach their full potential. Other plants such as herbs, salad greens, and other leafy plants only require between 180-380 µmol to grow efficiently.
To determine the light intensity of your plants if you don’t know it, you can use a PAR meter for the spectral range that is suitable for growing plants.
What Size Room For 1000-Watt HPS?
In general, a 1000-watt grow light is used to cover an area that is 5 x 5 total foot area. HPS grow lights are however more powerful. A 1000-watt HPS grow light can cover a much wider area of about 49 square feet in size.
The actual area of coverage of a 1000-watt grow light, or any grow light for that matter depends on several factors such as the type of the light, the specific light requirements of the plants being grown, and the design and type of the grow space.
How Hot Does a 1000w HPS Light Get?
HPS lights operate at very high temperatures of up to 54000F. The majority of this light gets turned to infrared (IR) radiation. This is the type of radiation that causes molecules to vibrate and heat up when it comes into contact with them. This IR radiation is directed toward plants the same way visible light radiation does.
Regular users of HPS grow lights are well aware of this fact, and for this reason, they do not put the grow lights too close to their plants as it would kill the plants in a very short space of time.
How Many Lumens Does a 1000w HPS Produce?
Normally, when we go to the shop to buy light bulbs, we buy them based on how much energy (usually in watts) they use. Lately, however, there has been more knowledge that has led to people buying light based on the amount of light they can provide.
Lumens are a measure of how much light you will get from a light bulb. The higher the lumens, the brighter the light you will get. The opposite is true for fewer lumens.
The best way to shop for bulbs is to look for lumens instead of watts, that way you will be able to tell which bulb will give you more light.
A 1000-watt high-output HPS bulb produces 150 000 lumens. This is more than the standard HPS bulb which produces only 140 000 lumens.
Conclusion – 1000w HPS Distance From Plants
Different hanging distances are recommended for various grow lights. We have concluded that the ideal distance from plants for 1000w HPS should be around 20 to 36 inches.
Whenever you purchase a new grow light, you can start with the recommended hanging distance and monitor your plants closely. You should back off the lights if you notice any bleaching of leaves. If you however notice your plants are fine with the distance, you can bring them a little closer so they can get optimal lights for their growth.
In all this, always keep a close eye on your plants’ response anytime you are using a new grow light on your plants. You should be able to obtain the appropriate hanging heights for your grow lights.
How far should my 1000 HPS lights be from my plants?
If you look at a picture of a HPS (high pressure sodium) light fixture, you’ll notice that there are two metal reflectors, one on top of the other. This design keeps the heat from dissipating and helps to direct the light toward the plants. The light fixture itself is mounted on a stand with a ballast. You’ll find that the ballast is usually mounted between 8-10 feet from the fixture itself. The distance will vary depending on the type of ballast you purchase. Most people recommend a minimum of 15 feet of separation between plants and HPS lights. If you’ve got enough room, I’d say go for it.
What does the ballast do?
A ballast regulates the flow of power to the lamp, which provides a constant voltage and frequency to the lamp. The ballast usually includes circuitry for sensing lamp current and voltage and for turning the lamp on and off to minimize energy waste. The ballast may also include circuitry for dimming the lamp by varying the frequency or phase of the alternating current.
How do you know if a light is too close to a plant?
It’s important to remember that we are not looking at the plant itself, we are looking at the light. If it is shining directly onto the leaves, or even the top of the plant, then the light is too close and you should move the light away.
If the plant looks a little wilted and the leaves are turning yellow, then you may need to adjust your light to make sure that the light is not shining directly on the leaves.
When is the right distance the most important for a 1000w HPS?
You want to pay the most attention to this during the flowering stage. This type of light is highly recommended for this stage in the growing process. As a matter of fact, many people only use this light for this stage in the growing process. Sometimes after applying a MH grow light beforehand.
Can you have too much light in a cannabis grow tent?
Yes you can, and the plants will show signs of this. This is why it is very important to keep not only the right amount of lights, but the right distance between them and the plants.
Also, note that when it comes to using fluorescent grow lights, anything higher than 12 inches from your plants’ canopy may mean your plants aren’t getting good light energy. This is because fluorescent light strength decreases when the height is too far from the plants’ canopy. So, ensure they are close enough to your plant as they are safe to be positioned close to plants.
How Far Should LED Grow Light Be From Plants?
LED grow lights are one of the most popular lights to use for indoor gardening. They are also safe to use at an appropriate close range on plants and they don’t emit much heat. LED grow lights are as well strong and efficient and can be used for different plant growth stages. They are majorly used in the flowering and fruiting stages.
When it comes to using LED grow lights, there is no particular rule to their positioning. But as a recommended tip, they can be placed around 12 to 18 inches above the plants’ canopy.
However, there are many types and brands of LED grow light that offers different output so deciding the appropriate distance may be tricky. The good thing is most times when you purchase LED grow lights, the manufacturer usually puts a recommended hanging height to follow. You can start with the manufacturer’s recommended hanging distance.
After trying the manufacturer’s recommended hanging distance, you can go ahead and move it a bit closer to get the perfect distance. Do these until you get to a point where your plants start to bleach. Also, you need to always monitor your plants when trying new grow lights. Move them back immediately when you notice any signs of discomfort in the plants.
By doing this, you will have mastered the right hanging distance for your plants for them to receive optimal light for their growing needs. Also, you may need to adjust the grow light upwards as your plants grow taller and develop.
When choosing an HPS light, it should not be about wattage. Instead of paying attention to the wattage of the grow light, it is more important to understand how the light spectrum works. This is so you can know which grow light and light spectrum to get for the stage of growth that your plants are at.
The grow light spectrum is measured in micromoles (µmol). Generally, you will need a light spectrum in the range of 180 to 1300 µmol. This is quite a wide range, therefore you would need to determine the light requirements of your plants. The more light-hungry your plants are, the higher the light spectrum you should get.
Certain plant families such as those of the Cannabaceae are on the upper end of the spectrum. They need a minimum of 800 µmol to reach 85% of their growth potential and up to 1300 µmol to reach their full potential. Other plants such as herbs, salad greens, and other leafy plants only require between 180-380 µmol to grow efficiently.
To determine the light intensity of your plants if you don’t know it, you can use a PAR meter for the spectral range that is suitable for growing plants.
What Size Room For 1000-Watt HPS?
In general, a 1000-watt grow light is used to cover an area that is 5 x 5 total foot area. HPS grow lights are however more powerful. A 1000-watt HPS grow light can cover a much wider area of about 49 square feet in size.
The actual area of coverage of a 1000-watt grow light, or any grow light for that matter depends on several factors such as the type of the light, the specific light requirements of the plants being grown, and the design and type of the grow space.
How Hot Does a 1000w HPS Light Get?
HPS lights operate at very high temperatures of up to 54000F. The majority of this light gets turned to infrared (IR) radiation. This is the type of radiation that causes molecules to vibrate and heat up when it comes into contact with them. This IR radiation is directed toward plants the same way visible light radiation does.
Regular users of HPS grow lights are well aware of this fact, and for this reason, they do not put the grow lights too close to their plants as it would kill the plants in a very short space of time.
How Many Lumens Does a 1000w HPS Produce?
Normally, when we go to the shop to buy light bulbs, we buy them based on how much energy (usually in watts) they use. Lately, however, there has been more knowledge that has led to people buying light based on the amount of light they can provide.
Lumens are a measure of how much light you will get from a light bulb. The higher the lumens, the brighter the light you will get. The opposite is true for fewer lumens.
The best way to shop for bulbs is to look for lumens instead of watts, that way you will be able to tell which bulb will give you more light.
A 1000-watt high-output HPS bulb produces 150 000 lumens. This is more than the standard HPS bulb which produces only 140 000 lumens.
Conclusion – 1000w HPS Distance From Plants
Different hanging distances are recommended for various grow lights. We have concluded that the ideal distance from plants for 1000w HPS should be around 20 to 36 inches.
Whenever you purchase a new grow light, you can start with the recommended hanging distance and monitor your plants closely. You should back off the lights if you notice any bleaching of leaves. If you however notice your plants are fine with the distance, you can bring them a little closer so they can get optimal lights for their growth.
In all this, always keep a close eye on your plants’ response anytime you are using a new grow light on your plants. You should be able to obtain the appropriate hanging heights for your grow lights.
How far should my 1000 HPS lights be from my plants?
If you look at a picture of a HPS (high pressure sodium) light fixture, you’ll notice that there are two metal reflectors, one on top of the other. This design keeps the heat from dissipating and helps to direct the light toward the plants. The light fixture itself is mounted on a stand with a ballast. You’ll find that the ballast is usually mounted between 8-10 feet from the fixture itself. The distance will vary depending on the type of ballast you purchase. Most people recommend a minimum of 15 feet of separation between plants and HPS lights. If you’ve got enough room, I’d say go for it.
What does the ballast do?
A ballast regulates the flow of power to the lamp, which provides a constant voltage and frequency to the lamp. The ballast usually includes circuitry for sensing lamp current and voltage and for turning the lamp on and off to minimize energy waste. The ballast may also include circuitry for dimming the lamp by varying the frequency or phase of the alternating current.
How do you know if a light is too close to a plant?
It’s important to remember that we are not looking at the plant itself, we are looking at the light. If it is shining directly onto the leaves, or even the top of the plant, then the light is too close and you should move the light away.
If the plant looks a little wilted and the leaves are turning yellow, then you may need to adjust your light to make sure that the light is not shining directly on the leaves.
When is the right distance the most important for a 1000w HPS?
You want to pay the most attention to this during the flowering stage. This type of light is highly recommended for this stage in the growing process. As a matter of fact, many people only use this light for this stage in the growing process. Sometimes after applying a MH grow light beforehand.
Can you have too much light in a cannabis grow tent?
Yes you can, and the plants will show signs of this. This is why it is very important to keep not only the right amount of lights, but the right distance between them and the plants.
Also, note that when it comes to using fluorescent grow lights, anything higher than 12 inches from your plants’ canopy may mean your plants aren’t getting good light energy. This is because fluorescent light strength decreases when the height is too far from the plants’ canopy. So, ensure they are close enough to your plant as they are safe to be positioned close to plants.
How Far Should LED Grow Light Be From Plants?
LED grow lights are one of the most popular lights to use for indoor gardening. They are also safe to use at an appropriate close range on plants and they don’t emit much heat. LED grow lights are as well strong and efficient and can be used for different plant growth stages. They are majorly used in the flowering and fruiting stages.
When it comes to using LED grow lights, there is no particular rule to their positioning. But as a recommended tip, they can be placed around 12 to 18 inches above the plants’ canopy.
However, there are many types and brands of LED grow light that offers different output so deciding the appropriate distance may be tricky. The good thing is most times when you purchase LED grow lights, the manufacturer usually puts a recommended hanging height to follow. You can start with the manufacturer’s recommended hanging distance.
After trying the manufacturer’s recommended hanging distance, you can go ahead and move it a bit closer to get the perfect distance. Do these until you get to a point where your plants start to bleach. Also, you need to always monitor your plants when trying new grow lights. Move them back immediately when you notice any signs of discomfort in the plants.
By doing this, you will have mastered the right hanging distance for your plants for them to receive optimal light for their growing needs. Also, you may need to adjust the grow light upwards as your plants grow taller and develop.
When choosing an HPS light, it should not be about wattage. Instead of paying attention to the wattage of the grow light, it is more important to understand how the light spectrum works. This is so you can know which grow light and light spectrum to get for the stage of growth that your plants are at.
The grow light spectrum is measured in micromoles (µmol). Generally, you will need a light spectrum in the range of 180 to 1300 µmol. This is quite a wide range, therefore you would need to determine the light requirements of your plants. The more light-hungry your plants are, the higher the light spectrum you should get.
Certain plant families such as those of the Cannabaceae are on the upper end of the spectrum. They need a minimum of 800 µmol to reach 85% of their growth potential and up to 1300 µmol to reach their full potential. Other plants such as herbs, salad greens, and other leafy plants only require between 180-380 µmol to grow efficiently.
To determine the light intensity of your plants if you don’t know it, you can use a PAR meter for the spectral range that is suitable for growing plants.
What Size Room For 1000-Watt HPS?
In general, a 1000-watt grow light is used to cover an area that is 5 x 5 total foot area. HPS grow lights are however more powerful. A 1000-watt HPS grow light can cover a much wider area of about 49 square feet in size.
The actual area of coverage of a 1000-watt grow light, or any grow light for that matter depends on several factors such as the type of the light, the specific light requirements of the plants being grown, and the design and type of the grow space.
How Hot Does a 1000w HPS Light Get?
HPS lights operate at very high temperatures of up to 54000F. The majority of this light gets turned to infrared (IR) radiation. This is the type of radiation that causes molecules to vibrate and heat up when it comes into contact with them. This IR radiation is directed toward plants the same way visible light radiation does.
Regular users of HPS grow lights are well aware of this fact, and for this reason, they do not put the grow lights too close to their plants as it would kill the plants in a very short space of time.
How Many Lumens Does a 1000w HPS Produce?
Normally, when we go to the shop to buy light bulbs, we buy them based on how much energy (usually in watts) they use. Lately, however, there has been more knowledge that has led to people buying light based on the amount of light they can provide.
Lumens are a measure of how much light you will get from a light bulb. The higher the lumens, the brighter the light you will get. The opposite is true for fewer lumens.
The best way to shop for bulbs is to look for lumens instead of watts, that way you will be able to tell which bulb will give you more light.
A 1000-watt high-output HPS bulb produces 150 000 lumens. This is more than the standard HPS bulb which produces only 140 000 lumens.
Conclusion – 1000w HPS Distance From Plants
Different hanging distances are recommended for various grow lights. We have concluded that the ideal distance from plants for 1000w HPS should be around 20 to 36 inches.
Whenever you purchase a new grow light, you can start with the recommended hanging distance and monitor your plants closely. You should back off the lights if you notice any bleaching of leaves. If you however notice your plants are fine with the distance, you can bring them a little closer so they can get optimal lights for their growth.
In all this, always keep a close eye on your plants’ response anytime you are using a new grow light on your plants. You should be able to obtain the appropriate hanging heights for your grow lights.
How far should my 1000 HPS lights be from my plants?
If you look at a picture of a HPS (high pressure sodium) light fixture, you’ll notice that there are two metal reflectors, one on top of the other. This design keeps the heat from dissipating and helps to direct the light toward the plants. The light fixture itself is mounted on a stand with a ballast. You’ll find that the ballast is usually mounted between 8-10 feet from the fixture itself. The distance will vary depending on the type of ballast you purchase. Most people recommend a minimum of 15 feet of separation between plants and HPS lights. If you’ve got enough room, I’d say go for it.
What does the ballast do?
A ballast regulates the flow of power to the lamp, which provides a constant voltage and frequency to the lamp. The ballast usually includes circuitry for sensing lamp current and voltage and for turning the lamp on and off to minimize energy waste. The ballast may also include circuitry for dimming the lamp by varying the frequency or phase of the alternating current.
How do you know if a light is too close to a plant?
It’s important to remember that we are not looking at the plant itself, we are looking at the light. If it is shining directly onto the leaves, or even the top of the plant, then the light is too close and you should move the light away.
If the plant looks a little wilted and the leaves are turning yellow, then you may need to adjust your light to make sure that the light is not shining directly on the leaves.
When is the right distance the most important for a 1000w HPS?
You want to pay the most attention to this during the flowering stage. This type of light is highly recommended for this stage in the growing process. As a matter of fact, many people only use this light for this stage in the growing process. Sometimes after applying a MH grow light beforehand.
Can you have too much light in a cannabis grow tent?
Yes you can, and the plants will show signs of this. This is why it is very important to keep not only the right amount of lights, but the right distance between them and the plants.
1000w HPS Distance From Plants: Additional Say
It is important to give your grow light and indoor plants the appropriate distance so they can flourish. Now, if you’re wondering what distance from your plants you should give 1000w HPS grow light, we will let you know in this post.
Various grow lights have different placements that need to be followed. High-pressure sodium (HPS) lights are great for providing light for your indoor plants. Following the right positioning for this type of grow light is essential so you don’t end up causing harm to your indoor plants.
In this article, we will be looking at how far should 1000w HPS distance be from plants. We will also be looking at the appropriate hanging distance for other grow lights. So, continue reading to learn more about this.
How Far Should 1000W HPS Distance Be From Plants?
Hanging HPS grow light too low can burn your plants. Also, placing them too high can cause your plants not to receive an adequate light supply making them grow leggy and stretchy.
Another criterion to look at when considering the distance to hang your HPS grow light is the power of the grow light. The stronger the grow light, the farther it should be from your plants.
So, for 1000w HPS light, the appropriate hanging distance from plants should be about 20 to 36 inches above your plant canopy. Then you can gradually move the light closer while monitoring them as your plant strengthens and develops. However, you should ensure the heat emitted is bearable for your plants so they don’t burn them.
You can do a simple backhand test by putting your hand between your HPS grow light and plant to feel the heat. If they don’t burn the back of your hand, then your plants are safe. Nevertheless, always do the proper adjustments if you notice any changes as your plants develop.
For seedlings, the 1000w HPS distance from plants should be around 5 feet. However, you should be very careful when using HPS for your fragile seedlings especially high power such as a 1000w.
For other HPS grow lights lower than 1000w, the hanging distance will continue to decrease as the bulb wattage value decreases. However, various grow lights have their distance range to be followed.
Other Grow Light Hanging Distance
As we said earlier, various grow lights have a specific hanging distance that must be followed so your plants can grow optimally. Let’s take a look at how far fluorescent and LED distances should be from their plants’ canopy.
Fluorescent Light Distance From Plants
Fluorescent lights are one of the safest lights to use because they don’t emit too much heat compared to other grow lights. Therefore, they can be positioned close to your plant canopy.
It would be best if you hung your fluorescent grow light about 4 to 6 inches above the plant canopy for the vegetative and flowering phases. For seedlings, position your fluorescent to grow light a little farther. You can do 6 to 10 inches for seedlings and gradually move them closer as they mature.
Also, note that when it comes to using fluorescent grow lights, anything higher than 12 inches from your plants’ canopy may mean your plants aren’t getting good light energy. This is because fluorescent light strength decreases when the height is too far from the plants’ canopy. So, ensure they are close enough to your plant as they are safe to be positioned close to plants.
How Far Should LED Grow Light Be From Plants?
LED grow lights are one of the most popular lights to use for indoor gardening. They are also safe to use at an appropriate close range on plants and they don’t emit much heat. LED grow lights are as well strong and efficient and can be used for different plant growth stages. They are majorly used in the flowering and fruiting stages.
When it comes to using LED grow lights, there is no particular rule to their positioning. But as a recommended tip, they can be placed around 12 to 18 inches above the plants’ canopy.
However, there are many types and brands of LED grow light that offers different output so deciding the appropriate distance may be tricky. The good thing is most times when you purchase LED grow lights, the manufacturer usually puts a recommended hanging height to follow. You can start with the manufacturer’s recommended hanging distance.
After trying the manufacturer’s recommended hanging distance, you can go ahead and move it a bit closer to get the perfect distance. Do these until you get to a point where your plants start to bleach. Also, you need to always monitor your plants when trying new grow lights. Move them back immediately when you notice any signs of discomfort in the plants.
By doing this, you will have mastered the right hanging distance for your plants for them to receive optimal light for their growing needs. Also, you may need to adjust the grow light upwards as your plants grow taller and develop.
When choosing an HPS light, it should not be about wattage. Instead of paying attention to the wattage of the grow light, it is more important to understand how the light spectrum works. This is so you can know which grow light and light spectrum to get for the stage of growth that your plants are at.
The grow light spectrum is measured in micromoles (µmol). Generally, you will need a light spectrum in the range of 180 to 1300 µmol. This is quite a wide range, therefore you would need to determine the light requirements of your plants. The more light-hungry your plants are, the higher the light spectrum you should get.
Certain plant families such as those of the Cannabaceae are on the upper end of the spectrum. They need a minimum of 800 µmol to reach 85% of their growth potential and up to 1300 µmol to reach their full potential. Other plants such as herbs, salad greens, and other leafy plants only require between 180-380 µmol to grow efficiently.
To determine the light intensity of your plants if you don’t know it, you can use a PAR meter for the spectral range that is suitable for growing plants.
What Size Room For 1000-Watt HPS?
In general, a 1000-watt grow light is used to cover an area that is 5 x 5 total foot area. HPS grow lights are however more powerful. A 1000-watt HPS grow light can cover a much wider area of about 49 square feet in size.
The actual area of coverage of a 1000-watt grow light, or any grow light for that matter depends on several factors such as the type of the light, the specific light requirements of the plants being grown, and the design and type of the grow space.
How Hot Does a 1000w HPS Light Get?
HPS lights operate at very high temperatures of up to 54000F. The majority of this light gets turned to infrared (IR) radiation. This is the type of radiation that causes molecules to vibrate and heat up when it comes into contact with them. This IR radiation is directed toward plants the same way visible light radiation does.
Regular users of HPS grow lights are well aware of this fact, and for this reason, they do not put the grow lights too close to their plants as it would kill the plants in a very short space of time.
How Many Lumens Does a 1000w HPS Produce?
Normally, when we go to the shop to buy light bulbs, we buy them based on how much energy (usually in watts) they use. Lately, however, there has been more knowledge that has led to people buying light based on the amount of light they can provide.
Lumens are a measure of how much light you will get from a light bulb. The higher the lumens, the brighter the light you will get. The opposite is true for fewer lumens.
The best way to shop for bulbs is to look for lumens instead of watts, that way you will be able to tell which bulb will give you more light.
A 1000-watt high-output HPS bulb produces 150 000 lumens. This is more than the standard HPS bulb which produces only 140 000 lumens.
Conclusion – 1000w HPS Distance From Plants
Different hanging distances are recommended for various grow lights. We have concluded that the ideal distance from plants for 1000w HPS should be around 20 to 36 inches.
Whenever you purchase a new grow light, you can start with the recommended hanging distance and monitor your plants closely. You should back off the lights if you notice any bleaching of leaves. If you however notice your plants are fine with the distance, you can bring them a little closer so they can get optimal lights for their growth.
In all this, always keep a close eye on your plants’ response anytime you are using a new grow light on your plants. You should be able to obtain the appropriate hanging heights for your grow lights.
How far should my 1000 HPS lights be from my plants?
If you look at a picture of a HPS (high pressure sodium) light fixture, you’ll notice that there are two metal reflectors, one on top of the other. This design keeps the heat from dissipating and helps to direct the light toward the plants. The light fixture itself is mounted on a stand with a ballast. You’ll find that the ballast is usually mounted between 8-10 feet from the fixture itself. The distance will vary depending on the type of ballast you purchase. Most people recommend a minimum of 15 feet of separation between plants and HPS lights. If you’ve got enough room, I’d say go for it.
What does the ballast do?
A ballast regulates the flow of power to the lamp, which provides a constant voltage and frequency to the lamp. The ballast usually includes circuitry for sensing lamp current and voltage and for turning the lamp on and off to minimize energy waste. The ballast may also include circuitry for dimming the lamp by varying the frequency or phase of the alternating current.
How do you know if a light is too close to a plant?
It’s important to remember that we are not looking at the plant itself, we are looking at the light. If it is shining directly onto the leaves, or even the top of the plant, then the light is too close and you should move the light away.
If the plant looks a little wilted and the leaves are turning yellow, then you may need to adjust your light to make sure that the light is not shining directly on the leaves.
When is the right distance the most important for a 1000w HPS?
You want to pay the most attention to this during the flowering stage. This type of light is highly recommended for this stage in the growing process. As a matter of fact, many people only use this light for this stage in the growing process. Sometimes after applying a MH grow light beforehand.
Can you have too much light in a cannabis grow tent?
Yes you can, and the plants will show signs of this. This is why it is very important to keep not only the right amount of lights, but the right distance between them and the plants.
Are you wondering if growing with household LED bulbs will be great for your indoor growing needs? Well, let’s look into this.
There is definitely a difference between regular household LED lights and LED grow lights. Regular household LED lights are the ones used in our homes while LED grows lights are designed especially for growing plants.
The standard grow lights you find around you may be expensive and regular household lights are less expensive. For this reason, you may want to know if growing with household LED bulbs is ideal. Read on to find out the answer.
Growing With Household LED Bulbs
The straight-up answer is yes, growing with household LED bulbs is fine. In a few cases, you can grow your plants using household LED bulbs. However, you should note that these household bulbs are not designed for plant growing needs compared to the standard grow light bulbs designed for growing plants.
Therefore, your plants may not grow efficiently as they should because they may not contain the appropriate full spectrum. Your plants require a complete spectrum of light containing all the colors of spectrum which are blue, red, violet, green, yellow, and orange.
Also, some of these light spectrums are required by your plants to enter into their various stages such as vegetative stage, flowering stage, or fruiting stage.
Growing with regular household LED bulbs may even cause you to always replace your bulbs because they don’t have a good lifespan compared to standard grow lights. Therefore, this might even cost you more. At the end of it all, regular household LED bulbs may end up prolonging your growing period. Also, the yield at the end of harvest may be small and of low quality.
If you want to give growing with household LED bulbs a try, you can go ahead. Just make sure you keep a close watch on your plants’ response to these lights. Your plants’ response will tell you if they are fine with the light or not.
Your plants may begin to exhibit some signs that they aren’t receiving good lights so this will help you determine their response. Some signs they will show when they are not getting optimal lights are as follows:
Signs Caused By Inadequate Light
Leaves start to show lighter color and some parts of the leaves may begin to turn yellow,
Plants grow tall with weak stems,
Plants’ growth may be stunted.
Once you notice these signs, it’s an indication you need to obtain some additional light bulbs. The best type of bulb usually contains both blue and red light wavelengths. The blue light is required for the vegetative stage and the red light for the flowering and fruiting stage.
Types Of Plant Light Bulbs
There are various types of daylight bulbs for plants you can use to grow your plants. However, if you require lights for just regular houseplants, you can go for light fixtures or lamps depending on your needs.
Here are some plant light bulbs you can use for your indoor plants:
1. Incandescent Bulbs
Incandescent bulbs are the light bulbs seen in most homes and they are one of the first options most people consider. They are one of the most common light bulbs to use and it is very affordable.
Although incandescent bulbs emit much heat, which is why they should be set up at least two feet away from your plants. This will help avoid damage to plants caused by heat. Incandescent bulbs should be used for a small indoor garden. They will also consume a lot of power which can cost you extra.
2. Fluorescent Light Bulbs
Fluorescent light bulbs are another popular type of light to use for your plants. They are ideal for small-scale gardens. With this light, you get a broader light spectrum that can be used for different purposes.
Thus, you can use fluorescent lights for seed germination, vegetative stage, flowering stage, and fruiting stage. They are safer to be used on plants because they emit lesser heat and they are also budget-friendly. Fluorescent light bulbs will consume lesser power saving, thus, you get to save cost, and they last longer.
3. High-intensity Discharge
High-intensity discharge lights include high-pressure sodium (HPS), and metal halide (MH). These lights may be a bit expensive to obtain and use, however, they are still a great choice for your plant growing needs.
The metal halide light contains blue light that will enhance vegetative growth. The high-pressure sodium light contains redder which promotes flowering. So, you can be sure of getting efficient lights for your plants with high-intensity discharge lights.
However, with their efficiency, they are so powerful that they consume more power at the same time producing more heat. Also, they need an extra component called a ballast to complete them.
4. Light-emitting Diode (LED): Daylight & Soft White LED Bulbs For Plants
LED lights are the most popular grow light used among growers. They are highly efficient and will release minimal heat while consuming less power. LED lights can produce both red and blue lights required for the vegetative and flowering stages of your plants.
LED lights can be represented as daylight, bright white, and soft white. Talking about daylight, this is a very bright white-blue light that has a high value of color temperature range of 5000 to 6500K. On the other hand, soft white lights give rise to yellow tones with a lesser value of color temperature that ranges from 2700 to 3000.
If you are wondering whether you can use regular LED lights to grow your plants, the answer is yes. However, these lights are different from regular ones in a way that they emit far less heat.
Regular LED lights usually have a wavelength of around 620 nm and emit high amounts of blue light. If you are interested in growing plants indoors, you should look for LED lights that emit light in the range of 400-700 nm. You should also check if your LED light has a cooling fan. A fan will keep the lights cooler. In addition, you can also use fluorescent bulbs or CFL bulbs in your garden. These bulbs emit more light than regular LED bulbs.
What color LED is best for plants?
LEDs are the best light source for plants, and any LED that fits in the space you have available will work. The most important consideration is to make sure the LED is close enough to your plant that it is receiving the correct amount of light. The best color LEDs are the ones that most closely match the spectrum of sunlight, and this is the same for all plants. If you want to grow any plant in full sunlight, then you should use white LED lights. What is the difference between red and yellow LEDs? The difference between red and yellow LEDs is that yellow ones have a slightly warmer color temperature than red ones. This means that they will emit slightly more blue light than red LEDs, but they also will emit more red light than red LEDs. They will not produce as much heat as red LEDs, and they will last longer.
How far away should LED grow lights be from seedlings?
The closer to the plant the better, and also the higher the light output is the better. As you said, the light should be at least 20 inches from the seedlings.
This is pretty much the standard recommendation for starting seeds, unless your seedlings are large. You don’t want to be putting them under direct lighting for very long, but if you put them in the dark and keep them in there for too long they can actually die.
Growing With Household LED Bulbs: Final Say
Growing with household LED bulbs may be okay, but your plants won’t just grow healthily and efficiently as they should with a standard grow light. It’s best you go for grow lights that will provide your plants with the correct light spectrum for their growth.
In all this, ensure the light you’re using for your indoor plants contains the correct color temperatures. so, invest in quality lights so your indoor plants can flourish.
CFLs are one of the most common grow lights used among indoor growers. It is the wish of every grower to satisfy the lighting needs of their plants. So, if you want to know how many CFLs are required per plant, we will let you know in this post.
Now, we can’t just answer this question without obtaining more about your garden information. We will require some information such as the wattage of the bulb, the size of each of your plants, and grow room size.
So, keep reading to learn how many CFLs are required per plant.
Growing With CFLs Light
Indoor gardening with compact fluorescent light (CFL) bulbs is a nice source of light supplements you can provide your plants. They will offer your plants awesome growing benefits such as affordability, easy to use, minimal heat, consumes lesser power, and so on. With CFL lights, you can be sure your plants receive the appropriate light wavelengths for them to flourish.
The compact fluorescent light bulb does not emit too much heat, unlike the conventional incandescent bulbs or fluorescents. However, they only supply moderate light intensity in contrast to sunlight. Therefore, your plants may need multiple bulbs for your plants’ growing needs.
How Many CFLs Is Required Per Plant
Like we said earlier, we need to know the plant size and bulb wattage to determine how many CFLs are required per plant.
The general standard we use in determining the plant’s lighting requirements is the plant size and it is measured in square feet. If we know the square foot of the plant size, we can deduce how many CFLs are required per plant. Also, it’s better to answer this question using square feet of space rather than how many plants.
How Many CFL Watts Per Plant?
How many CFL watts per plant are around 60 to 100 watts per square foot. This is ideal especially for high light demanding plants. You can however go a bit higher even as high as 150 watts. We recommend these values for the flowering phase.
When considering the vegetative phase, seedlings phase, or cloning, you can use half of this value for your plant’s growing needs. This value can as well be used for low light-demanding plants.
In a similar fashion, when we’re looking at about 2 to 3 plants which usually contain 1 square foot, then 150 wattages or less will be required.
Actual Wattage vs. Listed Wattage
Most grow lights usually have two different wattages: the actual wattage it draws from light and the wattage listed by the manufacturer.
For instance, if you see your CFL grow light labeled 500 watts, that’s not the actual wattage consumed. If you dig through and search your package, you will find the actual wattage used. Usually, if it’s stated that a grow light is 500 wattages, it may actually consume just about 150 or 200 wattages.
The labeled 500 watts is the amount the grow light offers while consuming lesser power. This implies you get more output with lesser power consumption.
Therefore, when you are considering how many CFLs per plant are required, focus on the actual wattage, not the labeled wattage.
As we mentioned earlier, CFL grows light only supplies moderate light intensity. Thus, if you want to get more light intensity, you may need to use multiple bulbs.
This is why CFL grow lights are ideal for only small plants. When you start using 10 or even 5 bulbs to attain that better lumen, you may have to put in extra work by readjusting the lights as your plants develop.
So, when you decide to plant more than one or two plants, we recommend you obtain an affordable LED grow light or a T5 fixture to ease the stress.
CFL Grow Setup
There is an ideal way to set up your CFL grow light so your plants can get adequate light intensity for their growing needs. Your CFL bulbs should be positioned on every side so your plants can receive good lightning. You can place the CFL grow light close to your plants because they are safe and will not emit too much heat.
For seedlings, you can position your CFL grow light at least an inch away from your plants. Once they begin to grow, you should move them a little farther from the plants. Ideally, for bushier and short plans you can place your CFL grow light close to the plants. On the other hand, for taller plants, the CFL grow light will need to be positioned farther away as the plants grow.
However, you can do a test using the back of your hand to feel the heat emitted from your CFL grow light. Place your hands between your plants and grow light for about 20 seconds. When you notice it feels hot, push the grow light a little further from your plants to avoid burns. On the other hand, if the heat is minimal on your hand, then it’s safe at that distance.
Generally, the recommended distance around 2 inches to 4 inches. Also, you want to always keep a close watch on your plants and how they receive the grow lights. As they grow taller, it is ideal you continue to move the grow light away from them.
FAQ’s
What CFL light is best for growing?
There are many options for CFL light bulbs. CFL stands for compact fluorescent lamp, a bulb that emits a similar amount of energy as an incandescent bulb but uses less power and produces a brighter light. There are several types of CFL bulbs available, including standard CFL bulbs, daylight CFL bulbs, energy-saving CFL bulbs and LED bulbs. All CFL bulbs produce the same amount of light, but some have a longer lifespan than others.
The most powerful CFLs are the ones with the most lumens, so a 100W light bulb would be better than a 25W bulb. A lot of the higher wattage bulbs do not have as much lumen output as lower wattage bulbs, but some of the higher wattage bulbs have more color spectrum than lower wattage bulbs. For example, the 100W bulb may have a little more red light, while the 35W bulb may have a little more blue light.
I prefer warm white CFL bulbs (2700K) but I’ve also seen people say they work well with cooler CFLs. I’ve also heard of people using CFLs for other things like making tea or cooking. I would assume that CFLs would be best for those uses, but they don’t seem to be much different from the incandescent bulbs that are usually recommended for growing plants.
How many CFLs are needed for seedlings?
It’s easy to calculate the number of CFLs needed. Let’s say the number of square feet of your seedling room is 10′ x 12′.
The number of CFLs needed is:
10′ x 12′ x 1/4″ = 120 square feet 1 cubic foot of seedlings = 240 seeds, so the number of CFLs needed is: 240 x 1/4″ = 60 square feet So you’ll need at least 60 square feet of CFLs to cover the seedlings.
If you’re talking about seedlings (like lettuce) and not plants, the answer is two per plant. For example, I have 2-4 seedlings per plant in a 1 gallon pot. In the case of seedlings, they’re usually grown in flats with two per flat. They can also be grown in individual pots, but that’s more of an exception than a rule.
What kinds of works well with CFL’s?
For seeds I would recommend using a CFL with an output of 150 watts or less (150W, 75W, 35W, 15W, etc.). This is the minimum for a CFL bulb to provide enough light for plant growth.
How far away should CFLs be from plant?
You want to keep them anywhere between 4 to 6 inches away from your plants. If you put them any farther away they won’t receive enough to grow properly.
How Many CFLs Per Plant: Final Say
We have concluded that how many CFLs watts per plant required is about 150 watts or less per square foot. CFL lights will produce less heat making it safe to be placed close to your plants. Therefore, they are especially great for tight space.
They are affordable and easily accessible. However, their light intensity does not do so great. Additional bulbs may be required to achieve the required light intensity. They are also not ideal for a large setup but great for a small setup.
Grow lights ballasts are required in traditional tube fluorescent bulbs as well as all high-intensity bulbs. Ballasts are needed for starting your bulbs and they will control the operations of your light.
Now, when it comes to establishing your grow space and you plan on using high-intensity lamp discharge, then grow light ballast may be required in your setup. The absence of ballast in your indoor grow space will not make your grow light come on if you’re using high-intensity discharge (HID).
What Is Grow Light Ballasts: What Do Grow Ballast Do?
Grow lights ballasts control the current that flows into a grow lamp. They are required to power up or start certain bulbs.
Generally, all gas discharge lamps such as compact fluorescent, HID, and linear fluorescent need ballast. Also, ceramic metal halide (CMH), high-pressure sodium (HPS), as well as the combination of HPS and MH all requires ballast. However, LED grow light does not require a ballast.
Grow light ballast allows you to prolong your grow bulbs’ lifespan and enhance your grow light performance.
How A Grow Lights Ballasts Operates
In a standard situation, grow light needs high voltage to power up or start, and the ballast supplies this. Now, when power is pulled from a high voltage source by your grow light, this process can result in a current surge.
This is why grow light ballast is required to control the current flow so the grow light can be prevented from such electrical spikes.
Grow lights are low resistance and they make use of two mechanisms to light up which are electrical arc and gas. As you turn on a lamp, the bulb receives high voltage from the ballast which gets the electrical arch started. When the arch receives power, the sodium is in a solid-state. However, it later changes by melting to vapor or gas.
Now, when it’s in the gaseous state, the lamp resistance lessens. Thus, the grow light will need only less power to run. If the lamp lacks ballast that controls the current flow, there will be a perpetual increase in current and the bulb will eventually blow.
Also, there will be a period when the HID bulb age and this will cause an increase in the demand for power for the light to keep running. So, when this happens, the ballast will increase the quantity of power to the bulb automatically.
As the bulb attains a point of requiring too much power, the ballast will shut down automatically to prevent any hazard or accident. This implies you have to get a new bulb for power continuation.
Types Of Fluorescent Grow Lights Ballasts: Electronic Vs. Magnetic Ballast
We have two types of fluorescent ballasts namely electronic ballast and magnetic ballast. You can choose either type for your plants’ growing needs. Both electronic and magnetic ballasts have their pros and cons.
Some growers prefer magnetic ballasts because of their affordable price. However, they emit too much heat and consume more power. On the other hand, other growers prefer electronic ballasts as they are more efficient and they emit lesser heat. They will offer you better output while using less power.
How Electronic & Magnetic Ballast Works
Magnetic Ballast
Magnetic ballast makes use of a magnetic coil in form of a big spool of wire wound about sheets of steel. This setup supplies a huge quantity of voltage required to start up the bulb. The magnetic ballast is known to be old-fashioned. They are bulky built and emit too much heat.
However, they are pretty durable and will last you a long time compared to electronic ballast. Thus, if you want long-term use, you can go for magnetic ballast.
Another great importance is that magnetic ballasts are built to meet a satisfactory standard of the American National Standard Institute (ANSI). They make sure both lamp and ballast operate together accurately.
Electronic ballast makes use of semiconductors and microchips to supply the required high voltage. It does not make use of a magnetic coil which makes magnetic ballast heavy. Thus, electronic ballast weighs lesser, looks smaller, and produces lesser heat.
Another added advantage is that electronic ballast offers more light which can be up to 30% of what magnetic ballast offers. They also consume lesser power while supplying more light.
However, the disadvantage we noticed is that they aren’t ANSI compactable with a metal halide (MH) and high-pressure sodium (HPS) lamps model that has 250+ watts. Thus, they are built in different ways resulting in bulb performance that is not consistent.
For this reason, we recommend you purchase a complete lighting package. This way, you are sure the bulbs included are the right match for the ballast.
Another plus is that electronic ballast can be switched which allows you to operate both HPS and MH without any problem. Also, the majority of electronic ballasts are dimmable therefore, you are allowed to run multiple bulb wattage.
Growing Light Digital Ballast
You may come across some ballast been labeled digital ballast. Have in mind that just a few of them are actually digital and they usually contain a microprocessor.
These digital ballasts are very efficient and will do more of what electronic ballast will do. However, these types of ballasts are more expensive.
Do LED Grow Lights Require Ballasts?
LED grow lights do not require ballasts. This is because they can be easily plugged into a direct standard electrical outlet. They work in a totally different technique and they just require direct current.
When you obtain LED light for your indoor growing needs, all which is required is right inside your package. So, no need for extra things like grow light ballast.
FAQ’s
What exactly is a ballast?
A ballast is a device that is used to power a fluorescent light fixture.
It can be thought of as an extension of the light fixture itself. The ballast is responsible for regulating the amount of electricity that goes into the light fixture. It also has the ability to limit the number of times the light fixture can be turned on and off.
How do ballasts work?
In order for a ballast to work, it must have two things: an input and an output. The input is the wire coming from the power supply. The output is the wire that goes to the fixture. For most ballasts, there are two wires going to the fixture: one for power and one for control.
The ballast receives the power coming in from the power supply. It then regulates the amount of power that goes to the fixture. This regulation is based on how much light you want your fixture to produce. Some ballasts allow you to regulate the amount of light produced by the fixture.
They do this by using a variable transformer, which adjusts the voltage to the fixture. Others are fixed at a certain level and can only be adjusted by changing the number of bulbs in the fixture.
How are they powered?
Ballasts are usually powered by AC mains power and operate on 240 VAC (United States) or 277 VAC (Canada).
The ballast contains two main parts: the electronic circuitry and the transformer. The ballast’s electronic circuitry is designed to convert the AC power from the power source into DC power. This power is sent to the transformer, which transforms the DC power into a high-frequency AC power. This high-frequency AC power then gets to the fixture. A ballast can be either direct or alternating current (AC). A direct-current ballast converts the 120/240 volts of AC power from the electrical grid into 12- or 24-volt DC power, which is used to light the bulb. An alternating-current (AC) ballast converts the same power into a higher-frequency AC signal, which is sent to the lighting fixture.
What are the different types of ballasts?
There are three main types of ballasts: magnetic, electronic and ceramic. The magnetic ballast is the oldest type of ballast. It consists of a single transformer and has no electronic circuitry. The transformer receives the power from the power supply and sends it to the bulbs. The ballast regulates the amount of power going into the fixture. The electronic ballast is the most common type of ballast. It contains electronic circuitry that regulates the power going to the fixture.
Conclusion for Growing Light Ballast
All high-intensity bulbs and traditional tube fluorescents need a ballast to operate efficiently. But LED grow light does not require a ballast. So, you may decide to opt for LED grow lights to make things simpler.
The good news is that ballasts are mostly included in your grow light package. Therefore, there’s no stress in searching for compactable ballast for your bulbs.
When setting up your indoor hydroponics garden, part of the process is choosing an effective grow light. LED light is one option to choose and there are different brands from various companies to purchase. If you decide to go for LED lights you can choose the MarsHydro LED grow light for your indoor growing needs.
Even though many LED light options are available in the market to choose from with different awesome attributes such as technical specifications, pricing, etc, deciding the right pick may be confusing. But if you end up choosing the MarsHydro LED to grow lights, you can be sure of an effective result for your indoor garden.
Some Info On Mars Hydro LED Grow Lights
MarsHydro LED grow light is a type of LED light for indoor gardening which is made by a Chinese manufacturer. This company has been gradually embraced among indoor gardeners as they offer quality LED lights to indoor plants.
These grow lights are affordable and easily accessible and this light is an excellent option for beginners. Also, the MarsHydro LED grow light is pretty adequate for both hobbyist growers and low-cost growers.
These lights are of good quality especially the MarsHydro 300W which performs distinctively from its older version. The older version has issues with burnt diodes and this has been solved with the newer version.
You can easily purchase them from the hydroponic store section, Amazon, and other reliable websites.
Benefits Of Using Mars-Hydro LED Grow Light
The MarsHydro LED grow light offers an impressive benefit which includes:
MarsHydro LED Offers a Full Spectrum: if you want to supply your plant with a full spectrum, then you should get your hands on the marsHydro LED grow lights. It offers full spectrum options for the vegetative stage, flowering stage, and fruiting stage. Thus, leafy greens or herbs, vegetables, fruits, and so on can be grow using this grow light.
It is Affordable and Accessible: another impressive benefit is its price offer as it is reasonably affordable and it’s easily accessible.
The Heat is in Moderation: the MarsHydro LED light does not produce too much heat. It has fans to disperse the heat emitted adequately to every part of the plants.
Durability: the grow light is pretty durable with a lifespan of around 50,000 hours. This means this grow light can last over 2,700 days if used 18 hours per day.
Warranty: there is also the benefit of a 3-year warranty. So, if there’s an issue of initial grow light failure you can be sure of warranty protection against that.
Any Downsides From Using MarsHydro LED Grow Light?
With the different benefits MarsHydro LED offers, we still notice a few downsides. Let’s take a look at them:
No Dimmer Switch: some of the brands that grow light lacks the switch options of light dimming. However, we believe it’s something you can work your way around. If the light is too bright, you can make use of protective wear for your eyes.
Absent of On/Off Switch: another downside of the MarsHydro grow light is that it lacks an on and off switch. You will always have to plug and unplug the grow light when making use of it.
Communication Gap: while this might not be much big of a deal, you may still have the communication gap of America-China a few times. However, they are getting better and one can’t resist the accessible, affordable, and nice quality of grow light they offer.
Even with all these downsides, the overall importance is the good light quality this grow light offers to your indoor plants. So, it is definitely worth the purchase.
Plants To Grow With Mars LED
The great thing about MarsHydro LED grow light is that it offers a full light spectrum. Thus, most varieties of plants can be grown easily with this grow light and you get a tasty and bountiful yield.
Here are some examples of plants you can grow with the MarsHydro LED grow lights:
The MarsHydro LED 300W full spectrum is one of the MarsHydro brands you can go for to supply your indoor plants with lights. It is energy-saving as it only pulls in about 120W and it’s ideal for a coverage area of 2ft by 2ft or 4 square feet.
It offers full-spectrum, thus, it’s ideal for vegetative and flowering phases. This grow light is safe to use on plants and we recommend positioning the grow light about 18 inches from your plants.
This grows light is a 600W full spectrum ideal for the vegetative and flowering phase of your plants. It is energy-saving and will only pull 132W of electricity. It is perfect for a 3ft X 3.5ft coverage area.
This is one of the most recent MarsHydro grows lights for indoor plants. It’s been improved to have a dimmable full light spectrum for all your plant stages. It is ideal for commercial purposes. This grows light can cover a growing area of 5ft X 5ft vegetative stage and 4ft X 4ft bloom stage.
It mimics the work done by sunlight and your plants will transition quickly from seed to flowering stage. Your grow life will be made comfortable as it is noise-free and easy to operate.
How many plants can a Mars Hydro TS 600 grow light?
Many people are interested in growing hydroponics, but aren’t sure how many plants the Mars Hydro TS 600 grow light can support. This is important to know before you start growing hydroponically. If you are using a soil-based system, your plant count will be determined by the size of the container you use and how much soil is inside it. If you are growing in a tray, you have a different set of considerations.
The Mars Hydro TS 600 is a medium output LED grow light that uses LED strips to create a high-quality, high-efficiency light source. It has a 4” x 24” footprint and can produce up to 7500 lumens. The unit is designed for indoor use only. While there are a number of factors that will affect the amount of light you get from a grow light, the most important is the power setting. A higher power setting will mean more lumens and therefore more light in your growing area.
The Mars Hydro TS 600 has a default power setting of 35 watts.
When you are ready to start adding more plants, you can increase the power setting by increments of 5 watts until you reach your desired output. For example, if you want to grow 6 plants with the Mars Hydro TS 600, you would start by setting the power setting to 40 watts and then increase it by 5 watts every time you add a new plant. Once you have all six plants, you can lower the power setting back down to 35 watts for the last plant and enjoy the rest of your growing season.
The Mars Hydro TS 600 also has a maximum power setting of 60 watts. At this setting, you will get a lot of light, but you may be able to burn out your plants. You should always start by using the lowest power setting that you are comfortable with and then increase it as your plants grow. If you are having issues with light burnout, try increasing the power setting by 5 watts at a time until you find the right balance for you. The Mars Hydro TS 600 is an excellent grow light for indoor cannabis growers. It is designed for indoor use only and can produce up to 7500 lumens. It can be used in any orientation and can even be mounted on a ceiling.
How far should Mars Hydro light be from plants?
It really varies on the type of environment that we’re talking about, but as a general rule of thumb two feet should be fine.
Is the HydroLED+ brighter than the HydroFLOWER?
It is a much better investment. I have used the HydroLED+ for a couple of weeks, and it is an amazing light. It is more than 50% brighter than the HydroFLOWER. It is also cheaper. However, after using it for a week, the HydroLED+ was no longer available. The reason that it is not available anymore, is because they are too popular. The HydroLED+ sells out every day! So if you want to buy one, get one as soon as possible.
How many watts is a Mars Hydro TS 1000?
If the hydro is in an air conditioned environment, and the fan is set to blow at about 12 CFM, then you can expect a few hundred watts. I would check the power consumption on the unit itself, not on the inverter.
Final Say
We can see the MarsHydro LED grow light is one of the best budgets friendly lights you can go for. MarsHydro has been dedicated to supplying your plants’ professional LED grow light with minimal heat and little noise. It can also be used on all types of plants.
Depending on the size of your indoor garden, you can use this quality grow light if you’re a newbie, have small gardens, or you just experimenting. There are also brands available for large rooms or commercial setup.
If you’ve decided to grow your plants indoors and you’re wondering how many plants can fit in a 3×3 grow tent is, then this post is for you.
One of the first important points to put into account before commencing an indoor garden is space. If you’re using a room, figure out how much space you have and if you’re using a grow tent, figure out how many plants can be grown successfully in your grow space.
We will go through how many plants will fit a 3×3 grow tent size so you can plan your indoor garden set up appropriately. So continue reading to learn more on this.
How Many Plants To Fit In A 3×3 Grow Tent?
You can grow about 2 to 4 plants in a 3×3 grow tent size. However, the number of plants to be grown in a 3×3 grow tent will depend on how you train your plants.
How you train your plant will be one major determinant of how many plants can fit in a 3×3 grow tent. Training is done to control the height and shape of your plants so they can accommodate your grow tent. Training your plants will not only control your plant size but will also maximize the yield of your crops.
When & How To Train Your Plant To Fit In 3×3 Grow Tent
Let’s take a look at how and when you can train your plant so they can fit in your preferred grow tent size.
Low-Stress Training Method
One common way of training your plant is by the low-stress training method. It involves controlling and manipulating the shape of your plants for them to produce optimal yield. Low-stress training allows growers to make use of the available space and light adequately.
Mostly, low-stress training allows your plant to grow horizontally and wide rather than vertically. It involves lowering a plant’s height at the same time producing multiple stems to maximize yield.
A horizontal trellis net is usually used to control and guide the plant through the direction of the plant to follow as they grow. The trellis net is tied to each grow tent pole which allows the plants to grow horizontal and wide. You can also gently bend or tie down the ranch of your plant stem and branch with a soft rope so they grow outwards.
Training should be done in your plants’ vegetative stage. This is because at this stage your plant is still growing and producing more leaves. When your plants get to the flowering stage or they become established, it will be difficult to manipulate their growth direction. If you plan on making use of this method in your 3×3 grow tent, then you can grow up to 4 plants in a 3×3 grow tent.
Another method of training your plant is by pruning or pinching. This method actually puts some stress on your plant because you have to make some cuttings.
Pruning involves cutting some parts of the plants as they grow. This is done to change the growth pattern. This process also gives rise to optimal yield. You can grow about 2 plants in a 3×3 grow tent using the pruning training method.
Sea Of Green Method
The next method of training your plants to fit in your grow tent is the sea of green method. This method involves pushing the plants to enter into their flowering stage ahead of their scheduled time. So, this is done by altering the lightning duration to 12 hours of light and 12 hours of darkness.
This is done so you can get early flowering, thus yielding to early harvesting. Therefore, this allows you to grow more plants or flowers per year. With the sea of green training method, you can grow about 5 to 7 plants in a 3×3 grow tent size.
Screen Of Green Method
The fourth and last training method we will be discussing is the screen of the green method. This method takes the steps of low-stress plant training. This also makes use of the net trellis by pushing the plants’ direction horizontally rather than vertically. With the screen of the green training method, you can plant about 2 plants in a 3×3 grow tent.
How Many Plants in a 3×3 Tent Final Thoughts
We have shown that how many plants you can fit in a 3×3 grow tent size will majorly depend on how you train your plants as they grow.
So, we hope this information has helped you know how to plan and manage space.
Even though most of our knowledge on ultraviolet light seems to be undesirable, a bit of ultraviolet light is still safe. UV light is divided into 3 groups according to their wavelengths and are UVA, UVB, and UVC. In this post, we will be discussing if UVA/UVB lights are good for plants.
As a grower, you should have an idea of the exposure of ultraviolet light on your plants and how the growth of your plants. So, let’s dive in and explore how UVA/UVB lights affect the growth of your plants.
Ultra Violet Lights & Their Types
Ultraviolet light is electromagnetic radiation which has radiation shorter than visible light and is present in the sun.
There are 3 different types of ultraviolet lights and they include:
UVA: the ultraviolet A wavelength ranges from 320 to 400nm. The natural light that passes through the earth is made up of 3% UVA light. UVA light makes up most of the entire amount of UV light on the earth. You should however know that UVA lights for plants do not cause DNA impairment.
UVB: the wavelength of the ultraviolet B ranges from 290 to 320nm. It makes up about 0.15% of natural the entire sunlight. The UVB light rays are capable of causing damage to the DNA of cells and they can as well cause cancer in living cells. The good news is that nearly all of the sun’s UVB rays are obstructed by the Earth’s ozone layer.
UVC: the wavelength of ultraviolet C ranges from 100 to 290nm. The UVC light is extremely energetic and it’s capable of killing living cells. It is even used for sterilization uses to kill harmful microorganisms. Fortunately, UVC light rays are filtered out entirely from the Earth’s surroundings.
Among these 3 ultraviolet lights, only UVA and UVB are used in little doses by plants. So, let’s take a look at how UVA and UVB play their roles in plants.
Benefits Of UVA/UVB Lights For Plants
Various plants respond in different ways when they are exposed to UVA/UVB lights. Below are some benefits UVA/UVB lights offer plants:
Antioxidant Production: Generally, it’s been shown that plants enjoy an increase in antioxidants or flavonoids production.
Enhance TCH & CBD: Also, both UVA and UVB in safe doses offer your plants that awesome flavor and smell from the oil they produce. The effect of UVA and UVB has been shown to enhance the production of THC and CBD in certain plants.
Trichomes Production: The same way humans make use of sunglasses or sunblock to protect from the rays of UV, plants as well produce their natural sunblock or sunscreen. The sunblock plants produce is known as trichomes and the more the trichome production, the more the THC and CBD range.
Enhance Germination: The germination process of indoor seeds that are just starting can be promoted by ultraviolet lights.
Reduces Plant Shock: When your plants are still indoors germinating, they are still fragile to high light intensity. If you transplant them from indoors to outdoor, they might go into shock. This is because the light intensity outdoor may be too high for them to adjust. But when you expose them to a few UV lights when they are indoors germinating in their early stage, shock from outdoor transplanting can be reduced drastically.
UV Lights In Grow Lights
Most of the grow light available contains the entire visible spectrum and a few ultraviolet lights. This way, this uva uvb grow lights duplicate the natural sunlight in a very close range. However, you should know not all grow light contains ultraviolet light.
Too Much UVA/UVB Light For Plants
As we have said in a low dose, ultraviolet lights are safe for plants. However, when they become too much, they will cause harm to your plants.
Ensure your indoor plants are kept safe from the rays of outdoor lights. Ultraviolet lights can penetrate through your glass windows and cause harm to your plants if they are not positioned properly. So, ensure you keep your fragile plants far from the reach of the light rays. You can as well obtain some dark thick curtains to block out the ultraviolet rays.
FAQ’s
Do plants need UVA and UVB light?
The answer to this question is yes. The ultraviolet (UV) spectrum is divided into two parts: ultraviolet-A (UVA) and ultraviolet-B (UVB). Plants use both of these parts of the spectrum for different purposes. UVA is a part of the visible light spectrum that we see as white or yellowish light. It is a component of sunlight and is not filtered by clouds or the atmosphere.
UVA is used by plants for photosynthesis and other cellular functions. UVB is the part of the spectrum that is filtered out by the atmosphere and clouds. Plants cannot use this portion of the spectrum for photosynthesis or other biological functions. UVB is important to plants because it causes plant tissue to darken. This causes damage to plant cells and can result in sunburns, which can be painful and cause skin damage if the exposure is too long. UVA radiation (wavelengths 400 nm to 320 nm) penetrates the atmosphere and can reach the surface of the earth. This penetration is dependent upon the amount of ozone and the wavelength of the UVA light. The UVB radiation (wavelengths 320 nm to 280 nm) penetrates the atmosphere and does not penetrate the stratosphere. This penetration is dependent upon the amount of ozone in the stratosphere.
The UVB part of the spectrum is filtered out of sunlight by the atmosphere. As a result, the UVB radiation we receive at ground level is relatively small.
What plant needs both of these?
The only plants that I know that require both UVA and UVB are the blueberry. The blueberry needs a lot of UVA and UVB to flower and fruit. It can’t flower or fruit if it doesn’t get enough UVA and UVB.
Do grow lights have UVA and UVB?
Yes, grow lights have both ultraviolet (UV) A and ultraviolet (UV) B wavelengths. UV-B is the most harmful of these wavelengths, and can cause a sunburn on your plants, but UV-A is actually beneficial to plants. It causes plants to open their stomata, or pores, which allows air and carbon dioxide in and water out. Without this, the plant would be suffocating.
Do LED grow lights produce UVB?
There is a myth in the cannabis community that LED grow lights do not produce ultraviolet B (UVB) light. This is false. It is one of the most common questions we get asked by people who are new to growing cannabis indoors. UVB is known as the “sunlight” of the plant world, and it’s essential for flowering. UVB light is produced by plants in sunlight.
Conclusion On UVA/UVB Lights For Plants
So, we have concluded that ultraviolet lights are safe in minimal doses for plant growth. Both UVA and UVB in safe doses can offer your plants good benefits.
Having an idea of the wattage used by your grow lights will tell you the grow light power consumption. This is important for you to determine the cost of operations. For example, you may be wondering how much 1000w grow light will cost per month. We will let you know in this post.
Almost every grower’s wish is to minimize cost and optimize yield. One of the deciding profit decisions when it comes to indoor gardening centers around the appropriate method of sun substitution. This is why it’s essential you know the wattage consumption so you can plan your running cost.
So, in this article, we will be looking at how much 1000w grow light will cost per month.
Wattage
Before we go into the power consumption of grow light, let’s look at what wattage (w) is. Wattage will determine the amount of power your grow light consumes. When the light wattage goes higher, it consumes more energy for electricity. Thus, you can have an idea of the running cost per month with wattage.
The amount of wattage consumption on your grow light will majorly depend on the type of grow light used. There are some grow lights made of high-pressure sodium (HPS) while some are made of light-emitting diode (LED). Note that HPS grow light will consume more power than LED grow lights.
Most grow light these days are made to replace the HPS consuming power light. So, a grow light labeled 1000w may not actually be consuming 1000w. It is only replacing a 1000w HPS bulb and thus will consume less wattage.
1000w Grow Light Cost Per Month
To determine the cost per month of 1000w LED grow light, you need to put some things into considerations. So, let’s take a look at them.
Things To Consider When Calculating How Much Do Grow Lights Cost
How many hours per day will you be running your grow lights?
What stage in the plant cycle does your plant fall? Is it in the seedlings stage, vegetative stage, flowering stage, or fruiting stage? Seedlings will require about 14 to 16 hours of grow light. For the Vegetative, flowering, and fruiting stage, we can say roughly 12 to 18 hours per day.
What is the actual number of wattage your grow light draws from the wall? For example, if you have a 3000w grow light, the light may only draw about 700w from the wall. Also, the wattage the grow light emits is totally different from the wattage it will pull from the wall or consume.
The number of weeks each growth stage will take. For example, seedlings can take 1 to 2 weeks. The vegetative and flowering stages can take weeks. But in this article, we will be doing 4 weeks, which is one month.
Electricity cost per kWh (kilowatt-hour). In the United States, the average cost of kWh is around 13 cents. However, this energy rate can differ widely depending on the states you live in. It could be cheaper or more expensive.
So for example, you run your 1000w LED grow light for 15 hours per day. Remember we said you need to find out the actual number of wattage consumed. Dig and read through your grow light label to find out the actual wattage specs.
For example, let’s say a grow light labeled 1000w actual wattage consumption number is 200w; we will have our total grow light cost per month to be $1170. This is calculated using 1kWh for 13 cents. This implies that the number of wattages consumed per day is 3kWh. While the number of wattage used per month equals 27kWh from running 15 hours grow light per day.
This is just an estimate of running 15 hours grow light daily with an actual wattage consumption of 200w. This may vary depending on some things such as the actual wattage values or the number of hours you run your grow light.
However, if your light is actually consuming a 1000w and you’re running your grow light for 15 hours, the cost per month will be $5850. This is calculated using 1kWh for 13 cents. This shows that the number of wattages consumed per day is 15kWh. While the wattage number used per month is 105kWh from running 15 hours grow light per day.
You can use this grow light calculator by inputting your values here to get your monthly cost estimation.
FAQ’s
How many watts does a 1000 watt LED grow light use?
LED grow lights do not use any wattage. They are a type of light emitting diode, but they don’t have any filament or other heating element. They use an electric current to produce light, and they are designed to be used in conjunction with a fan to move air through them. The amount of light output is determined by the color temperature. Cooler light will provide more red/blue spectrum light and more plants will grow.
A 1000 watt Led grow light equals 900 watts of HPS light.
How many plants can a 1000 watt LED grow?
In general, 4 plants.
In general, 4 plants.
LED lights are the future of lighting. They’re incredibly energy-efficient and can last for years, even decades. If you’re considering purchasing some, you might be wondering how much they cost to run each month. You can find this information by simply dividing the cost of the light bulb by its expected lifetime, which is typically 20 years or more.
Do LED lights take a lot of electricity?
LEDs are very efficient, so it is unlikely that they use much more energy than incandescent bulbs. They do use a lot less power.
What are the disadvantages of LED lights?
LED lights are not only energy efficient, but they also last much longer than traditional bulbs. However, there are some disadvantages to using LED lights that you should be aware of before you buy. LEDs are extremely durable. They can last anywhere from 15-20 years, depending on the type and quality of bulb you purchase.
LEDs are more expensive than other lighting options, such as incandescent bulbs. For example, an average LED light bulb can cost around $40-$50, whereas a typical incandescent light bulb can cost under $1. Another disadvantage of LEDs is that they can be difficult to install. They require a very specific installation and cannot be used in many existing fixtures. If you have an existing fixture, you will have to remove it before installing the LED lights. What types of LEDs are there? There are three main types of LEDs: white, amber, and blue. White and amber lights are more common and are great for lighting up a space. They also tend to have more energy efficient bulbs, so they are perfect for home use.
Do LED lights get hot?
How many watts does a 1000 watt LED grow light use?
LED grow lights do not use any wattage. They are a type of light emitting diode, but they don’t have any filament or other heating element. They use an electric current to produce light, and they are designed to be used in conjunction with a fan to move air through them. The amount of light output is determined by the color temperature. Cooler light will provide more red/blue spectrum light and more plants will grow.
A 1000 watt Led grow light equals 900 of HPS light.
How many plants can a 1000 watt LED grow?
In general, 4 plants.
How much do LED lights cost per month? LED lights are the future of lighting. They’re incredibly energy-efficient and can last for years, even decades. If you’re considering purchasing some, you might be wondering how much they cost to run each month. You can find this information by simply dividing the cost of the light bulb by its expected lifetime, which is typically 20 years or more.
Do LED lights take a lot of electricity? LEDs are very efficient, so it is unlikely that they use much more energy than incandescent bulbs. They do use a lot less power.
What are the disadvantages of LED lights? LED lights are not only energy efficient, but they also last much longer than traditional bulbs. However, there are some disadvantages to using LED lights that you should be aware of before you buy. LEDs are extremely durable. They can last anywhere from 15-20 years, depending on the type and quality of bulb you purchase. LEDs are more expensive than other lighting options, such as incandescent bulbs. For example, an average LED light bulb can cost around $40-$50, whereas a typical incandescent light bulb can cost under $1. Another disadvantage of LEDs is that they can be difficult to install. They require a very specific installation and cannot be used in many existing fixtures. If you have an existing fixture, you will have to remove it before installing the LED lights. What types of LEDs are there? There are three main types of LEDs: white, amber, and blue. White and amber lights are more common and are great for lighting up a space. They also tend to have more energy efficient bulbs, so they are perfect for home use. Do LED lights get hot? They get hot, but not as much as the regular incandescent bulb probably because they’re more efficient.
Are LED brighter than halogen?
When it comes to comparing a LED bulb with a traditional incandescent, halogen or fluorescent, the answer is yes. The average LED bulb can produce up to 90 percent of the light as a comparably sized traditional bulb. However, they’re also much smaller and have longer life spans.
An LED (light emitting diode) is a semiconductor-based light source that converts electricity into light, whereas a CFL (compact fluorescent lamp) is a type of compact fluorescent light that produces light using the same principle as an incandescent bulb. LED bulbs are generally much smaller and have longer life spans than CFL bulbs. They also produce more light per watt of energy used. In other words, a LED bulb is brighter than a CFL bulb.
Led Grow Light Cost Per Month Final Word
How much wattage your grow light consumes matters when it comes to the planning cost of electricity. But the wish of most growers is to use a grow light that consumes less power and offers maximum output for optimal yield. So, you can achieve this by choosing the appropriate grow light.
Indoor hydroponic grow lights are gaining popularity as more and more people are indulging in indoor gardening. In this article, we will be taking a look at the advanced Platinum LED grow light reviews.
You’ve probably heard of great things about the platinum LED grow lights and you may be wondering if it is just hype or if they are truly great. Well, we’ve got the answer for you here. Platinum LED grow lights are some of America’s finest grow lights you can use for your indoor plants.
We will also be discussing some great features that your plant stands to enjoy using the advanced platinum LED grow lights and many more points. So, continue reading for more info.
Quick Info on Platinum LED Grow Lights
Some of the best types of grow lights to use in your indoor garden are the advanced platinum LED grow lights. The brand platinum LED is one of America’s leading grow light companies and we highly recommend them for your indoor garden.
Also, they offer a combination of 3-watt diodes and they all come in 12 or 14 LED bands. So, these types of grow lights are very impressive even with their price.
You will encounter some downsides with these lights but you can rest assured they are some of the finest types of LED grow lights on the market.
The platinum LED light comes in different series and some of the best options are the advanced series which includes P150, P300, and P450.
In this article, we will be looking at the advanced platinum LED P300 series to grow lights reviews so, let’s begin.
Advanced Platinum Series P300
The advanced platinum P300 series offers excellent features such as a superior 12-band full light spectrum. The combination of these 12 different bands gives us a more complete light spectrum all through the depths of ultraviolet (UV) to the upper infrared (IR).
Amongst other LED grow lights, the brand platinum LED lights offer the highest lumen output per watt. Thus, your plants will enjoy 2 times or even 3 times light intensity for optimal yield!
This advanced platinum grow light has heat moderation as systems have been put in place to moderate the heat emitted. Thus, they are safe to be placed at a reasonably close range to your plant so they can get adequate light intensity for optimal yield. It has also been upgraded with aluminum cooling heat sinks and it comes with 2 times high-speed whisper-quiet fans.
We appreciate the dual light spectrum that can be switched to suit the vegetative or flowering growth phase. This advanced platinum grow light is also made of waterproof materials so you don’t have to worry about damage from water splashing over your lights.
Another great benefit we admire is the ability to mimic the conventional 400-watt HPS grow light while it actually consumes only 180 watts of power.
Additionally, you get a 90 days refund policy and 5-year warranties which will give you ease and satisfaction in purchasing these great lights.
However, the downside we notice is the heat. Plants must not be too close to the light.
All in all, they are great for indoor gardening use. It’s one of our favorite versions of the advanced platinum series.
Pros
Offers 100% light usability for plant growth.
12 bands full light spectrum.
Packed with heat moderation supplies and cooling racks.
Made of waterproof materials.
Great for vegetative and flowering stages.
Offers high lumen output.
90 days money-back guarantee and 5 years warranty.
Cons
It’s a little pricey.
You should not place it too close to plants because of heat.
Advanced Platinum P600
The Advanced Platinum p600 offers great features such as a 12-band full light spectrum from the depths of UV to the heights of IR. It has 2x-3x the intensity of any other grow lights. It also has a dual vegetative and flower functionality that makes it easy to switch between the two without having to swap out lights. It is fitted with high-speed whisper quiet fans plus ALL NEW upgraded aluminum cooling heat sinks.
The p600 replaces the conventional 800W HPS grow light, and only consumes 350 watts of power while giving plants 100% usable light for maximum photosynthesis.
This grow light is one of the most popular lights due to its ability to reach depths of up to 4 feet, which allows for maximum coverage of plants. It is also a flexible light and is easily scalable to fit any grow area size due to its long and narrow panel dimensions. With these, you can perfectly cover any grown area and still provide maximum light intensity for maximum plant yield.
The p600 is equipped with 200 pcs 3w epistar LED, 4 pcs big quiet fans, and 5 pcs Aluminum heat sink, perfect cooling the light system, and keeping the light a long time output.
The further focus by the 90-degree glass lens which expands the lighting area and focuses the light on the plant makes the light 100% absorbed.
This grow light has all these advantages plus a complete 5-year warranty and a 90-day satisfaction or return guarantee.
The Advanced Platinum p600 is great value for money and has great applications for greenhouse plants.
The Advanced Platinum p1200 is an effective replacement for the conventional 1400W HPS grow light, while only consuming 758 watts of power and giving your plants 100% usable light.
This is Advanced Platinum’s most powerful commercial-grade light, and the most powerful LED grow light available at the moment!
Suitable for everything from small-scale to full-scale commercial operations, this light produces amazing results like you wouldn’t believe.
The selectable “veg” and “bloom” light spectrums are sure to deliver maximum performance for your plants for seeding through to the final flower and harvest. You would therefore not need supplemental lighting as your plants are covered for their entire growth cycle.
The Advanced Platinum p1200 has the highest PAR/lumen output per watt of any LED grow light. It provides a superior 12-band full spectrum with UV and IR. It also has whisper-quiet fans and aluminum cooling heat sinks.
This light is perfect for large commercial operations and multiple units for even light coverage. It also comes with a 5-year warranty and an exclusive 90-day satisfaction or return guarantee
Other advantages of this light include that it has no ballasts, it is easy to manage, clean, and relatively compact, making it easy to store.
There are however some downsides to this product is very heavy. It also lacks manual guidelines which result in ambiguity. It has a smaller coverage area than other high-end competitors.
Advanced Platinum P900
The light provides some of the highest PAR per watt of any LED grow lights on the market. It has a complete 12-band spectrum and ensures maximum yield with minimum power usage and heat
The Platinum p900 replaces the conventional 1000w HPS grow light and only consumes 557 watts of power. It is still able to provide 100% usable light which creates the perfect conditions for maximum photosynthetic activity.
The P900 is one of the most professional strength lights suitable for everything from a single light grow to full-scale commercial operations and especially excels in multi-panel setups such as 5×5 grow tents or large hydroponic flood trays.
As with other Platinum LED lights, it has a selectable veg and bloom spectrum, as well as whisper-quiet fans and an upgraded cooling heat sink. All this and a 5-year warranty and 90-day money-back guarantee.
Advanced Platinum Grow Lights Positioning
While using advanced platinum lights, it’s important to get the right positioning to avoid plant burns. Follow these tips to get the right placements:
Seedlings: When using advanced platinum lights for your seedlings, you have to be very careful. We suggest you use the vegetative switch only and position your grow light about 36 to 40 inches apart. As your seedlings begin to germinate after a week or two weeks, you can then adjust the length between your grow light and plants to 24 inches. Ensure you use only the vegetative switch even through the rest of the vegetative period.
Vegetative: For the vegetative phase, the distance between your grow light and plants should be around 22 to 25 inches. You can then move your grow light closer as your plants mature and adapt to increased light intensity.
Flowering: For the flowering phase, you can maintain a distance of 15 to 18 inches between your grow lights and plants. Use both vegetative and flowering switches for this phase.
The most important thing in all these is to always keep an eye on how your plants are reacting to light intensity. Your plants will always give you a hint of the perceptions of these lights.
If you notice your plants’ leaves are pointing or moving in the direction of light, then that’s a good sign. It means you can move the light a bit closer. However, if you notice your plants are looking dry, with uneven color, or wilting, and you are sure every other environmental condition is perfected, you might want to move the lights away a little.
You can also do a simple test by putting your palm in between the grow lights. This is to feel the heat emitted, so if it is hot, you should adjust accordingly and vice versa.
Conclusion – Platinum LED Grow Light Review
So, that’s it on platinum LED grow lights reviews. These lights are some of the top-rated LED grow lights on the market. They offer a lot of benefits, ease of use, and versatility that other brands of grow lights do not offer. With a wide selection of lights to choose from, you can be sure to find one that will suit you and your growing area or scale of operation.
If you decide to purchase any of the advanced platinum lights, you can rest assured your plants will get optimal light for successful and optimal growth.
FAQs
Are Platinum led grow lights good?
Yes, they are. Platinum led grow light system are more energy efficient than other lighting systems.
Platinum lights are more expensive but if you do your research and decide on a system that you feel will work best for you, you should be good.
What are the top rated LED grow lights?
It can be a bit confusing with all of these different types of grow lights and different ways to grow your plants.
LUXE LED Grow Lights Luxe is an industry leader in the field of LED grow lights, with products ranging from high-powered grow lights to low-wattage grow lights. Luxe LED grow lights are known for their ability to provide up to 4 times more plant growth than other types of lights. A single Luxe LED grow light can produce more than 10,000 lumens, which makes them a great option for growing plants indoors or outdoors. This means that you will have the ability to grow large plants quickly, which can make your indoor grow space more efficient. You can also use Luxe LED grow lights to grow herbs and flowers, and this is one of the main uses of these lights.
Other LED light worth mentioning include Best LED grow light and Gixier Grow light, each featuring 1000 watts.
What color of LED grow lights are best?
LEDs (light emitting diodes) produce a lot less heat than HID lights, and they also produce less light energy waste. They have a longer life span and they use less electricity than HID lights, which makes them the most efficient way to grow plants indoors.
LEDs produce light with a spectral distribution of specific colors. These colors are measured in nanometers or nanometers. Nanometers are the distance between two colors on a rainbow. For example, the yellow spectrum produces light with a wavelength of 560nm, which is closer to the red spectrum than the blue spectrum.
The most efficient wavelengths are in the blue and red range. Plants need light in different wavelengths for different purposes. Blue light is known to promote flowering in some plants. The higher the blue content of the LED grow lights, the more blue light will be emitted. Red light is used to promote flowering in plants like tomatoes. You can also mix blue and red light to get different colors.
What wattage is best for grow lights?
In general, you need to consider grow lights of 20 to 40 watts per square foot. If you are going to be doing this for a while, you may want to consider 50 watts per square foot, which would be closer to what you get from a 60 watt CFL or a 75 watt T8. You can always go bigger later on if you see that the plants need it.
Growing with fluorescent grow lights is great for your plants. However, there are different types of fluorescent grow lights that perform different operations. In this article, we will be discussing growing with T12 fluorescent lights.
It is crucial you choose the right type of fluorescent light for your plants’ needs. This is so your plants can receive the appropriate light to develop. So, let’s look into growing with T12 fluorescent lights and how they affect your plants’ growth.
Fluorescent lights are also ideal for growing plants that do not demand too much light intensity. It will supply the appropriate type of light needed by your plants without causing any harm. They are especially ideal for growing vegetables, herbs, spinach, lettuce, and the likes. They are also great for vegetative growth and flowering growth.
There are various types of fluorescent tube lights you can choose for your indoor garden but not all fluorescent lights are the same. You can distinguish them by their diameters and they are represented by the “T” letter. The T letter indicates the bulb has a tube shape.
We have from T4 to T12 fluorescent light tubes and we will be discussing the T12 fluorescent lights. The 12 in this T12 bulb indicates that the bulb is 12/8 in diameter or 1.5 inches.
Growing With T12 Fluorescent Lights
Although T12 is not so great amongst the other T fluorescent lights we have, nevertheless, T12 can supply your plants with lights for their growing needs.
T12 fluorescent light has been in existence for a long and they are regarded as older technology. It may be a little scarce to find them in the market as they are been discontinued by some manufactures. However, you can find the ones used for residential purposes still available.
The T12 fluorescent lights usually absorb more wattage and they will only supply you with fewer lumens or brightness. They are not so long-lasting as other fluorescents. Thus, using T12 fluorescent lights might cost you to always replace them very often and they are not so efficient unlike other types of T fluorescent lights.
We will not recommend you depend on T12 lights only for growing. You can have other types of fluorescent lights such as T5 and T8 to get optimal plant production.
You can however rely on T12 fluorescent grow light if you’re using them for only small seedlings germination. Small seedlings germination does not require too much light intensity.
GE plant and aquarium fluorescent F20T12 grow light is ideal for some plants and aquariums. It features 750 lumens, 20 watts, warm white, bi-pin base, and it measures 1.5-inch diameter.
This is a T12 type of fluorescent grow light that can supply your indoor plants with light. They are especially great for indoor vegetable garden seedlings.
GE Lighting (Pack of 4) Fluorescent F20T12 Daylight, 24 inch, 20 watt T12, Fluorescent Light Bulb
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It can also provide light to your aquatic vegetation. The fluorescent bulb comprises a combination of phosphorous and this will supply plenty of red and blue lights. The bulb can last you up to 4 years if you follow the 6 hours daily usage.
Although they may not provide a wide range of the light spectrum, they can still be utilized on plants that require lesser light intensity.
The active grow light is a type of T8/T12 tube your indoor plants can utilize. It features 22 watts and sun white full spectrum. The bulbs are great as they offer bright light for your plants’ growth. The brightness is twice as bright compared to older fluorescent lamps.
This grow light is especially ideal for seed germination and microgreens. It is also ideal for vertical farming and can be used on houseplants.
Active Grow T8/T12 High Output 4FT LED Grow Light Bulb T8 Grow Lights for Indoor Plants, Germination & Microgreens 22W Sun White Full Spectrum High CRI 95 Ballast …
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This grow light is energy-saving and the lamp features are durable. The heat emitted is also moderate thus, safe for your plants.
FAQ’s
Can I use T12 as grow lights?
T12’s are not really meant to be used as grow lights. They are not designed for that purpose, and are not as efficient as other lighting technologies.
They are intended to be used as a general lighting fixture in the home, similar to an incandescent bulb. The average T12 has a rated output of about 700-1000 lumens (lm). For comparison, a 600W incandescent bulb has an output of about 30 lm. If you were to use a T12 as a grow light, you would have to replace it every year or two because the light output will decrease over time due to a chemical reaction.
Can I use a regular fluorescent light as a grow light?
Yes, you can. Fluorescent bulbs are the most common type of lighting used in homes and offices today. They are compact, low energy consuming, durable, and easy to operate. They can be found at any hardware store or home improvement store. You can choose between incandescent and fluorescent bulbs for your grow room. The only issue you will have with using a regular fluorescents is that the light will not be as bright as it could be. You can still use a regular fluorescent bulb for plants if you are growing indoors. The amount of light that your plants get depends on how close they are to the bulb.
Which is better for plants LED or fluorescent?
LEDs are superior for plant lighting, but they’re not perfect. They don’t have the same color temperature (which you may want in your garden) as florescent tubes, and they aren’t quite as efficient. The problem is that LEDs are based on semiconductors, which can be easily damaged by moisture, so you’ll need to keep them well-ventilated.
LEDs can also be pricey, so it may be worth considering a florescent tube instead of an LED if your budget allows.
Can I leave my grow light on 24 hours?
Yes, you can leave your grow light on 24/7 and it will not damage your plants. But, there are a few things you should be aware of if you do so. The first thing is that you need to make sure you have a good ventilation system in place to avoid a buildup of carbon dioxide. If the carbon dioxide levels get too high, you could end up with a greenhouse effect. This could cause your plants to look like they are under stress and could even kill them. Also, make sure you have adequate humidity levels in your closet, as well as a temperature monitor. These will help you keep track of how much heat your grow light is giving off and how much humidity you’re creating.
What light bulb is closest to natural sunlight?
I think the closest you’re going to get is a “daylight” bulb. There are bulbs that are closer, but they are still far from perfect. This one is rated at 2700K and has a color rendering index (CRI) of 92, which is very good for a bulb in this range.
Fluorescent Grow Lights Bulbs Conclusion
Growing with T12 fluorescent lights may not be the best of the best but they can be used on certain plants that require low light intensity. They can also be used on small germinating seedlings.
You may have come across some color temperature values especially these two options: 5000k and 6500k. Now, the question is which better option when it comes to 5000k vs 6500k for your plants growth?
Different people or even experts may recommend you go for either one because they are better and you end up getting confused. But in the actual sense, which one is really better in 5000k vs 6500k for your plants?
To answer your troubling questions, we have put together this article for you to know the difference between 5000k and 6500k. So, continue reading to find out the answer.
Kelvin Color Temperature
Before we look into 5000k vs 6500k for plants, let’s have an idea of what Kelvin’s color temperature is. Kelvin’s color temperature illustrates the look of light supplied by a given light bulb. The measurement of color temperature is in Kelvin (K) and the Kelvin scale ranges from 1,000 to 10,000.
Kelvin scale is used to measure or determine the source of light and the direction the light spectrum follows. Now if you want to describe or have an idea of how the light appears, color temperature is used. On a Kelvin scale, the lesser numbers 1000k to 3000k fall under orange and yellow while the higher numbers around 4000k to 7000k fall under blue.
The Importance Of Color Temperature For Plants
Color temperature is very crucial for the growth of plants as it will tell you the spectrum of light required. Growing various plants indoors will require you to recreate the light supplied by the sun.
Light serves as the energy in plants used in their developments. Photosynthesis makes use of light to make food and certain chemicals or pigments on the leaves make this possible.
The pigment chlorophyll present in plants allows light to be absorbed for their use. Chlorophyll will take in the different light spectrum at different rates. So, getting the right color temperature values for your plants’ growth is important.
Also, note that the distance you place your light source will determine the light intensity supplied to your plant. If the light source is moved closer to your plants they will receive more light intensity and vice versa. However, ensure the heat emitted from your grow light is minimal to prevent your plants from burning.
6500k vs 5000k For Plants: Which Is Better?
Generally, plants will grow optimally between the 2700k and 7000k range. This range is very similar to natural sunlight which helps plants grow better. So, when it comes to 500k vs 6500k, we can say they fall into the perfect Kelvin scale range ideal for plant growth.
If you’re already making use of either 5000k or 6500k and it is working for you perfectly, then there’s no reason to change. They will both offer your plants pretty similar results. If you keep asking different people what the best color temperature between 5000k and 6500k, you will keep getting up to 10 different answers.
Both 5000k and 6500k are great for the vegetative phase, flowering phase, and fruiting phase. So, they are ideal for the general growth of your plants.
The only difference between 5000k and 6500k is that 5000k is considered morning light. On the other hand, 6500k may be regarded as noon light.
Which Is Brighter In 5000K vs 6500K?
The Kelvin color temperature does not depend on brightness. For instance, a LED light with 6500k could be dim and have a lamp of 5000k that is extremely bright and vice versa.
The color temperature of Kelvin will not tell you how anything about the brightness of a light source. It will only determine or measure the source of light and the direction of the light spectrum.
There are various ways to determine brightness but one common way you can determine the brightness is through the lumen. Higher lumen results in brighter light and it measures the intensity of light that we humans can see.
Therefore, the combination of Kelvin and lumen will give you a hint of how good the light intensity of a certain grow light is.
Final Say 5000k for veg vs 6500k for veg Plants
So, we have concluded that there’s isn’t much difference when it comes to 5000k vs 6500k for plants. Your plants will do well with either one of these color temperature values.
Commencing hydroponic indoor gardening will require some good planning. Choosing the appropriate grow light is an important factor to consider in indoor gardening. Using T8 fluorescent lights when it comes to growing with hydroponics is a great option as it will provide optimal lighting for your plants’ growth.
Choosing the right lighting source for your indoor garden will determine how well your plant flourishes and yield a good harvest. Be it flowers, vegetables, etc, you should know the right type of grow light for your various plants.
We will be discussing growing with T8 fluorescent lights and see how they affect the growth of your plants. So, read on to find out.
Grow Light For Indoor Plants
Grow lights are bulbs used to replicate and provide the light from sunlight to your plant. They are used in indoor gardens and are essential at every stage of your plant’s life cycle.
There are various grow lights that can be purchased. Some are costly while some are of moderate price. Choosing the right type of grow light that will offer your plant optimal support and result in greater yield is important. You wouldn’t want to end up choosing the wrong type of grow light.
Therefore, let’s take a look at how growing with T8 fluorescent grow lights will be and how they affect the growth of your plants.
Growing With T8 Fluorescent Grow Lights
T8 fluorescent lights have been in existence for a long and they have been used in an indoor hydroponics garden.
T8 grow light is made of tubular style with a 1-inch diameter. They are energy efficient and they are mainly used for seedlings, veggies, cuttings or cloning, and flowering. T8 grow light can also be easily interchanged with older types of fluorescent light.
They are also one of the best lights used in the vertical farming system. T8 grow lights are known to be pretty durable with a longer lifespan.
Simply ensure you position your fixtures at the appropriate distance to your plants so they can receive optimal light intensity. Also, make sure you leave the T8 to grow light long enough for your plants to receive adequate light for growth.
Seedlings
T8 light can as well be used on germinating seeds or growing seedlings. Just ensure you place your grow light in the right position as young seedlings will require less light intensity. It is when they begin to grow well and strong the light fixtures can be increased.
However, for seedlings that love sun or light, you should have their grow light at least 1 foot above the plants. T8 bulb of 48 inches should be left on for around 22 to 28 hours daily.
Some Recommended T8 Grow Lights Bulbs
Below are some recommended T8 fluorescent lights you can go for:
The Monions-L T8 LED grow light features two rows with a high-quality full-spectrum LED. The heat emitted is not too much and it’s safe for plants. It’s also very bright and easy to install.
Also, this T8 grow light is great for all plant stages. It is capable of connecting up to 6 grow lights at once. Ensure you keep the 4 to 39 inches between your plants and grow light.
This T8 LED grow light will offer your plants a full light spectrum. It features removable reflectors and the light angles can be conveniently adjusted.
It is very durable, easy to install, and has a low maintenance cost. They are very flexible and can be easily fixed or hanged in most places in your house.
Also, you can link them with 6 other grow lights and they are a great choice for home gardening and commercial gardening.
The Barrina T8 grow light is another full-spectrum light ideal for your indoor plants. They are easy to set up and are made of reflectors which helps enhance the light output.
The short answer is yes. The T8 bulb produces a brighter light than the HPS bulbs used in your current setup, and it’s usually about half as much power (so less heat) as an HPS. It does not produce quite as much UV as an HPS bulb, so you may want to consider whether that’s enough for your plants. T8 bulbs are good for replacing fluorescent lamps or CFLs in existing lighting systems, but not for replacing the HPS bulbs.
Can fluorescent lights be used as grow lights?
The answer is that it should be ok, but you have to use high quality bulbs. I would also advise to make sure that his light fixture has enough space for the plant to grow and has adequate ventilation. There is no doubt that the fluorescent lights will give off some heat, so he should keep the lights a good distance from the plants and not have the plants too close to the fixture. There is always the danger of the bulb burning out in the fixtures if the plant is too close. here are many types of fluorescent lamps available. Some are designed specifically for growing plants and some are general purpose. There are three main types of fluorescent lights that you can use to grow plants: High-pressure sodium (HPS), medium-pressure sodium (MPS) and low-pressure sodium (LPS). There are also fluorescent tubes that you can purchase for the same purpose.
How far should fluorescent lights be from plants?
The distance between the plant and the light should be as short as possible, but not longer than 3-4 feet. If the lights are too far away, they can appear to “grow” upwards instead of downwards. This is called “vertical growth.” The reason for this is that as a plant grows, it pushes out new cells in the top of the stem.
These cells then send their own roots towards the light source. When the cell’s roots reach the light source, the cell stops growing. Because the light source is so close to the plant, the new roots grow upwards rather than downwards. This is a normal part of a plant’s growth cycle.
Will tomatoes grow under fluorescent lights?
Yes, they will. But it is important to keep the lights low and in a position where the plant can’t get shade from any overhead source. Here’s what I would recommend. Place the lights directly over the plants. Make sure you have adequate ventilation if you are using them indoors. The heat that they produce will be enough to warm the air around the plants, but you need to make sure the temperature doesn’t rise too high.
If the air gets too hot, you may want to move the plants to a cooler area, such as a basement or garage.
Conclusion
These grow lights t8 can be linked with 12 other lights with connecting cords. Their light is very bright and great for indoor gardens.
It is the wish of all growers to maximize the growth potential of their clones. Providing the correct light spectrum is paramount to the development of your clones. So, if you’re wondering what the best light spectrum for your clones is, we will let you know in this post.
Plant cloning has been in existence for decades and it’s been used to produce desirable plant characteristics on a large scale. One of the major sources of energy comes from the light which is why it’s crucial for the development of your clones.
Continue reading to find out the best light spectrum required for the growth of your plant clones.
Cloning Light
Cloning involves producing or making an exact match or copy of a plant from a mother plant. The plant to be cloned must have excellent features such as no plant stress, plant disease resistance, healthy plant growth, etc.
Cloning is another way of starting and growing a plant instead of seed germination. If you maintain and follow all the right tips for cloning, you will have a successful plant in the end.
Best Light Spectrum For Clones
Starting off your cloned plants the right way is the key to a successful plant outcome. So, talking about providing the best light spectrum for your clones, we recommend the blue light color. Also, if you wish to provide a full light spectrum to your clones, it won’t hurt.
Generally, plants require two main types of the light spectrum to flourish which are blue and red. Blue and red are as well great for plant cloning.
The blue light spectrum is required by clones for root development. On the other hand, the red light spectrum assists in the growth of plants and flowering of the plant. The red light spectrum is also required for photosynthesis which helps in the production of plant food to boost their growth.
However, for the first period, ensure you make use of blue light first to enhance the growth of the root.
Grow Light That Produces The Best Light Spectrum For Clones
Note that the grow light that produces one of the best light spectrums is the cool white fluorescents. You can as well go for a combination of cool white fluorescents and warm white fluorescents. These lights are especially great for young clones as they require minimal light power for their early growth stage.
Other types of grow lights such as HID, LED, and so on can as well be used for your clones. However, these grow lights may be too strong for young clones. They won’t be as effective as fluorescent grow lights.
The household CFL is another good option to use on your clones. Household CFLs such as spiraled light have also shown good outcomes on young clones. Be sure to take care when using CFL lights on your clones as they emit plenty of heat. Give them a good distance between your clones to avoid burning them.
How Much Light For Clones Is Required?
Supplying your clones with the correct light spectrum will enhance their growth to give you abundant yield. Although for the first two days, your clone does not require any light because they need to be in the dark.
Ideally, you should supply your clones with about 18 hours of light. This will encourage the growth of stems and healthy leaves. The remaining of your clone 6 hours is to be in the dark to also encourage the growth of roots.
Other Lighting Tips For Clones
Here are some cloning tips to ensure you give your clones the best lighting for optimal growth:
Take note of the heat of any to-grow light you’re making use of. You can do a simple test by placing your hand between the distance of the light and your clones to feel the heat. If you feel too much heat on your hand try to move the distance a little farther from your clones.
As your clones develop, ensure you monitor their appearance. If you notice the yellowing of leaves or drying of leaves, it may imply your grow light is too close to your plants that it gives off too much heat. Quickly do the proper adjustments.
Use only low light levels for your clones as they flourish and grow well in them.
As your clones develop and grow stronger and hardened, they will need more light. Thus, you can increase the light intensity gradually.
Allow your clones to develop strong root systems before exposing them to powerful or bright lights.
Which Wavelength of Light is The Least Useful to Your Plants’ Growth?
Greenlight is the least useful for plant growth. Plants poorly absorb this light wavelength since their chlorophyll pigment is already green. It might not make much sense, but this rejection is a form of protection. However, scientists don’t have the exact reason pinned down yet.
What Wavelength of Light Do Plants Absorb?
The pigments in plant cells that are responsible for collecting energy can only absorb specific wavelengths of light. Plants absorb blue and red light the best. Blue light has a wavelength range of 425 – 450 nm, and red light ranges from 600 – 700 nm.
The wavelength range plants use to photosynthesize is between 400 nm and 700nm. This is known as Photosynthetically Active Radiation (PAR), and this changes seasonally and even differs depending on the time of the day.
What is The Best Light Spectrum for Vegetative Growth?
Vegetative growth refers to the growth period between germination and flowering. During this stage, plants photosynthesize and collect the energy they need to flower and reproduce. If you’re growing plants under a grow light, you need to ensure they have the right light during this developmental stage.
Blue and red light waves are best for the vegetative stage. If you use a mixture of both, you’ll get great results! Blue light improves plant structure. Red light is responsible for increasing leaf growth and stem elongation. This wavelength also promotes flowering and fruit development.
If you need to encourage structure strength, increase the ratio of blue light. Use more red light if your plants are leafy or near flowering.
Do Full-Spectrum Grow Lights Emit UV Rays?
If you’re keeping your plants under grow lights, you need to mimic natural sunlight as closely as possible. A full-spectrum light will do this task best.
Full-spectrum grow lights emit UV rays. The wavelength of your light should be between 100 and 400nm for effectiveness. You’ll have to keep your plants under this light for at least 12 hours daily.
Compared to standard blue and red fluorescent light bulbs, a full-spectrum light can almost double the quality of light. It’s the closest to the natural sunlight you can give your plants.
How to Make a Full-Spectrum LED Grow Light?
It’s relatively easy to set up your own full-spectrum grow light. I suggest buying a kit that contains all the elements you need. This will work out cheaper, especially if you have nothing on hand.
Your kit should include blue, red, green, and white light. The lights your choice will determine the quality of your setup. Ultimately, the outcome of your plants!
Full-spectrum LED growth lights should range from ultraviolet to infrared. This will ensure it mimics natural daylight as closely as possible. The wavelength range of your setup should be between 400 nm and 700 nm.
Remember to evaluate the CRI (color rendering index) of your setup. The higher this is, the closer your lights are to sunlight.
Clone Light Conclusion
We have concluded that the best light spectrum for clones is blue and red colors. They are required for the development of roots for your clones and optimal growth.
As a hydroponic indoor grower, one of the major things to put in place to get optimal growth is good lighting. Among various types of grow light, we have in the market, T8 grow light is the type that can supply your plants with good lighting. This is why you need to know the best T8 bulbs for growing plants.
Your indoor hydroponic plants will require excellent grow light that can duplicate the effect or work of sunlight. We will be reviewing the best T8 bulbs you can choose for growing plants in your indoor hydroponic garden so you can enjoy optimal yield. So, read on to decide your best pick.
What Are T8 Grow Light?
T8 grows are fluorescent grow lights that are one inch in diameter. It is approximately 40% smaller than a T5 fluorescent light and also longer than T5 grow light.
List Of The Best T8 Bulbs For Growing Plants
With so many options of T8 bulbs in the market, deciding which to go for might be confusing. This is why we are taking the stress off and listing some amazing T8 bulb grow lights you can go for. So, let’s explore our options:
This grows light is one great T8 grow light bulb you can choose. It features full spectrum red and blue light spectrum in a V-shape which is specially required for the optimal growth of plants. This T8 grow light will usher your plants all through their growing phase (germination, vegetative, and flowering or fruiting phase).
It comes with a three speed timing regulator allowing you to adjust the light output depending on the growing stage. The grow light is very flexible and you can set them up in various positions in your indoor garden such as a growing rack, vertical farm, or plant factory.
Another added advantage is that the bulbs emit low heat. Thus, you can position them a little close to your plant so they can receive optimal light and not worry about it burning your plants.
In addition, this grows light will not take too much power thereby you get to save a good amount on your lightning utility bill. They will also serve you a long time till you ever think of making any change.
The drawback we notice is that the light may be too bright for your eyes. So when handling or going near it, you can make use of some protective eye wears.
Pros
Supplies both red and blue spectrum which is great for plant growth.
Easy to use and set up.
The heat emitted is minimal.
Energy-saving grows light.
Long-lasting.
Cons
The light produced may be too bright for your eyes.
SHOPLED LED Grow Light 2FT, Full Spectrum, 20W Plant Lights for Seed Starting, Seedlings, Sunlight Replacement, Grow Lights for Indoor Plants, 4-Pack
$58.99
Full spectrum red and blue T8 Grow light containing 3-speed light output to align with the growing stages of your plants.
The GE T8 LED Grow Light Bulbs offer a full-spectrum light tailored for indoor plants, especially those flowering and fruiting. With a lifespan of 25,000 hours, these 48-inch bulbs are designed to fit standard T8 fixtures, providing an energy-efficient solution for plant enthusiasts.
Pros:
Advanced Red Light Spectrum: Enhances flowering and fruiting stages, promoting healthier plant development.
Energy Efficiency: Consumes less power compared to traditional grow lights, reducing electricity costs.
Long Lifespan: With 25,000 hours of use, these bulbs require less frequent replacements.
Cons:
Fixture Compatibility: Designed for T8 fixtures; may not fit other types without modification.
Initial Investment: Higher upfront cost compared to standard fluorescent bulbs.
Overall, the GE T8 LED Grow Light Bulbs are a solid choice for indoor gardeners seeking efficient and effective lighting solutions for their flowering and fruiting plants.
GE Grow Lights for Indoor Plants, T8 LED Light Bulbs
$99.77
GE T8 LED Lights bulbs for Flowers and Fruit with Advanced Red Light Spectrum, 25,000 Hours Lifespan, 34 PPF, 48 Inches, 6 Pack (Packaging May Vary)
The T8 Barrina LED grow light is another excellent grow light that will supply a full light spectrum to your plants. This grow light is easy to install and it comes with different wires for connections.
It is built with an aluminum reflector that improves the efficiency of light supplied to plants. This T8 bulb light can last as long as 50,000 hours non-stop. The aluminum reflector also assists in spreading the heat emitted evenly.
This T8 grow light will usher your plants into their various stages such as germinating, vegetative, and flowering or fruiting. The full spectrum Barrina grow light offers consist of red, blue, and green wavelengths which are great for boosting the growth of plants.
Additionally, this growth light can as well extend the flowering time of any plant you wish to extend. Thus, it will also help enhance the quality of the budding of your plants. You enjoy higher efficiency of light at a reduced cost as well as low consumption.
Another added benefit is the ability to connect up to 6 bulbs at once without requiring connecting chords. Thus, installation costs and timing are reduced.
The downside is that the light emitted may be too bright for your eyes. Wear protective eye wears if they’re bothering your eyes.
Pros
Highly efficientT8 grow light.
Long-lasting with a life span of 50,000 hours of non-stop light.
Great for all plant life cycle.
Easy to assemble and use.
Features aluminum right reflectors for better functionality.
Cons
Light may be too bright for the eyes.
Top Pick
Barrina Grow Lights for Indoor Plants, Full Spectrum Sunlight, 2ft 40W (4 x 10W, 250W Equivalent), LED Grow Light Bulbs, T5 Grow Lights, Plug and Play, Pinkish White, 4-Pack
$29.06
The T8 Barrina LED grow light is another excellent grow light that will supply a full light spectrum to your plants. This grow light is easy to install and it comes with different wires for connections.
Another option for the best T8 bulbs for growing plants is the SpeePlant T8 integrated fixtures. It is perfect for greenhouse cultivation, house gardens, etc.
They are super easy to assemble and use, and the bulbs are bright enough for your plants to do well under them. They are pretty versatile and lightweight, so they can be installed on your walls, shelves, and so on.
The SpeePlant T8 integrated light fixtures offer your plant a full light spectrum. Thus, they will assist your plant transition from germination to flowering to vegetative, and flowering or fruiting stages. They will also help your plant take in adequate nutrients even trace elements for optimal yield.
The grow light is highly efficient and long-lasting and its power consumption is also minimal. You can also link up to 6 fixtures at once.
The disadvantage we notice is that the light produced may be too bright for your eyes. Thus, ensure you wear protective eyewear when close to the plant if the light affects your eyes.
One of the best options for T8 bulbs for growing plants is this white light full spectrum. They supply bright white lights and they’re great for an indoor hydroponic garden. The wavelength ranges from 420nm to 780nm.
The white light they produce will not cause harm to your eyes as they are healthier for both you and your plants. They are also full-spectrum light that will support your plant throughout the stages of its growth cycle.
The installation is pretty easy and it requires no wiring or reconstruction. All you need do is plug and on your grow light. They are highly efficient that give high output even with low power consumption. Thus, you get to save up to 70% energy on your electricity bill.
Additionally, they can also link up to 6 bulbs at once. Thus, you can extend your grow tent to a bigger size as you wish.
However, the drawback we notice is that it produces too much heat. So, ensure you place them at least 4 to 12 inches away from your plants.
All in all, the white light full spectrum T8 bulb is a great option you can choose when it comes to the best T8 bulb for growing plants.
Pros
Energy-saving T8 grow light.
Great efficiency with high output.
Ability to link up to 6 bulbs at once.
Supports all plant growth stages.
Cons
The heat producded mab burn your plants. Thus the lights should be position a proper distance away from the lgiths
White Light Full Spectrum LED Grow Light, 2FT 2-Row V-Shape T8 Integrated Growing Lamp Fixture for Indoor Plants, Greenhouse Light with ON/Off Switch Plug and Play, Pack of 4 (24W x 4)
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FAQ’s
Are T8 LED lights good for growing?
Yes, they are. T8 bulbs have a higher color rendering index (CRI) and a better output spectrum. They also emit more visible light. The bulbs produce roughly the same amount of light. The higher CRI is helpful in plants that have a photosynthetic response to blue wavelengths. It is also helpful when trying to see details in plants. There are two main types of T8s. There are T8s with a filament and T8s without a filament. A T8 bulb with a filament produces more light than a T8 bulb without a filament. T5 bulbs do not require a filament.
Is T5 better than T8?
T8 is one of the most popular bulb types for growing plants. A t8 bulb is an artificial light bulb designed for growing plants. Most of the bulbs are used in hydroponics, or with a nutrient solution. Hydroponic systems have been around for a long time and are the most common way to grow plants indoors. A t8 bulb is similar to a T5 bulb but with one big difference: it has a much higher wattage than a regular T5 bulb. The higher wattage means that the plant will require less energy, which in turn means that you will be saving money on your electricity bill.
Best Fluorescent Light For Plants Conclusion
There’s no denying that nothing beats natural sunlight. T8 bulbs will still support your indoor plant growth by mimicking the work done by sunlight. But even if they do not give you 100% natural sunlight supply, they will still deliver great results for your plants’ needs.
So, we have listed some of the best T8 bulbs you can go for when growing your plants indoors.
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T8 LED Grow Light Strips, 1FT Plant Grow Lights for Indoor Plants Full Spectrum, Grow Lights for Seed Starting, Succulent, 20W(2 10W), Sunlight White, 2-Pack
White Light Full Spectrum LED Grow Light, 2FT 2-Row V-Shape T8 Integrated Growing Lamp Fixture for Indoor Plants, Greenhouse Light with ON/Off Switch Plug and Play, Pack of 4 (24W x 4)
White Light Full Spectrum LED Grow Light, 2FT 2-Row V-Shape T8 Integrated Growing Lamp Fixture for Indoor Plants, Greenhouse Light with ON/Off Switch Plug and Play, Pack of 4 (24W x 4)
If you would like to know how to build a recirculating deep water culture system, we will enlighten you on this. We have various types of hydroponic systems and recirculating deep water culture system is one of them.
Recirculating deep water culture system (DWC) is one of the most convenient, easy to build, and moderate cost hydroponic systems you can go for. So let’s explore how to build a recirculating deep water culture system.
What Is A Deep Water Culture & Recirculating Deep Water System?
Deepwater culture (DWC) is a method of hydroponic system gardening whereby plants’ roots are suspended or submerged in a nutrient-rich solution and oxygenated water. There is a reservoir used to store the nutrient and water solution for plants use.
Now, this deep water culture system has different types and recirculating deep water culture (RDCWC) is the one we are going to be talking about.
In a regular or traditional deep water culture, there’s the stress of monitoring each system’s pH, nutrient level, and so on. It is only ideal for a small system. However, if you wish to have a larger system that will contain more plants, recirculating deep water system should be your choice.
Learn How To Build A Recirculating Deep Water Culture System
The major difference between deep water culture and recirculating deep water culture is that the nutrient water solution in RDCWC will be pumped from a big reservoir. Then it will be passed through other small systems and returns to the reservoir. Thus creating a re-circulation.
Materials Required
A big nutrient reservoir, small gallon of buckets, net pots, air stones, air tubing, air pumps, growing medium, nutrient solution, pH meter, and connecting pipes, grow lights for indoor purpose.
Step 1
Obtain a big reservoir tank for storing nutrient solutions. Now, this big tank will be linked to every other small reservoir for each plant. Then all the small tanks or reservoirs will be connected by pipes.
It is this big tank that will pass or supply nutrient solutions to other small tanks. It will now be returned or recirculated back into the big tank. An inline water filter is used to control and recirculate the water. The roots of your plants will be totally suspended on this nutrient solution.
Note that the big reservoir needs to be stored in a light-proof container.
Step 2
Obtain some air pump and air stone to be put in the big tank and each small tank. Air stones will produce bubbles that encourage gas exchange and good aeration in combination with air pumps. So, this will keep the root of your plants well oxygenated as oxygenation is paramount to the survival of your plants in RCDWC.
Step 3
Next use net pots to hold your plants in. The net pots have holes that will allow your plant roots to reach below the nutrient water solution.
Then go ahead to fill the net tots with a growing medium like perlite, clay pellets, pebbles, lava rocks, and so on.
Step 4
When you’re done setting up your deep water culture system, ensure you check the pH value. Always sustain a pH range of 5.5 to 6.5 for optimal growth.
The nutrient solution in your reservoir can be replaced once a week or once in two weeks. Also, ensure you always check the nutrient conditions in your reservoir with an EC meter and PPM meter.
Plants That Can Be Grown In Recirculating Deep Water Culture System
So, plants that can be grown in recirculating deep water culture system include:
Tomatoes, lettuce, herbs, squash, pepper, cucumbers, and so on.
Benefits Of Recirculating DWC System
Below are the benefits you stand to gain when using recirculating deep water culture system for planting:
Recirculating deep water culture system is very easy to set up and the components are easily accessible.
This system is cost-effective. Also, maintenance is not demanding once your system is up and running. There is less worrying about clogging or blocked pipes or systems.
You enjoy the faster growth of plants because nutrients are absorbed directly and easily. Also, the rich oxygenated system encourages faster nutrient uptake.
Taller or larger plants can be grown in the recirculating deep water culture system.
The watering scheme is very easy.
The fertilization requirement is not demanding as the plants are always submerged in nutrient-filled water solutions.
FAQ’s
How do you set up a recirculating deep water culture?
You’ll need a PVC pipe with an internal diameter of at least 12 inches (30 cm), and ideally the bottom end should be threaded. You’ll also need a pump, some tubing to connect the pump to the pipe, and a valve. You’ll also need a few other things: A tank. A plastic or stainless steel tank is best for this, but if you don’t have one available, you can still grow plants, but the water quality will be poor. You may also need a heating element if you want to keep your growing area warm. A reservoir. This is a container that holds water when it’s not being used to grow plants. It’s usually connected to the tank, so the water level in both containers remains the same. Pots. These are the main part of the system. You’ll need at least two pots, though more would be better. An air pump. If you have a standard garden pump, you should be able to adapt it to work as an air pump, by placing it in a bucket with some holes drilled in the lid. The potting mix. For this you’ll need a small amount of compost or peat, and some kind of plant food. Fill the potting mix with water until it’s about 3/4 of the way full. Add the growing mix, using at least twice as much as the volume of the water you added. Pump the water through the tubing and into the potting mix in the reservoir, so that the water mixes with the potting mix. Leave the pump running for around 10 minutes. You can check how well the mix is draining by looking at the surface of the water in the reservoir. If it’s still relatively full, turn off the pump and leave the potting mix undisturbed overnight. The next day, check that the water has drained away. If it hasn’t, restart the pump. The first time you do this, you may need to add more fish emulsion to achieve the right consistency. Keep an eye on the level of the water in the reservoir. It should be just below the top of the growing mix. If the water level starts to rise, stop pumping. The extra water will drain away. When the water reaches the top of the growing mix, stop pumping again and wait a few minutes before restarting the pump. This will allow the water to drain away completely. When you restart the pump, keep an eye on the level of the water in the reservoir. It should be at the top of the growing mix. Repeat the process every day or two, until the water level in the reservoir is about 3/4 of the way down the potting mix. If you want to grow plants, you’ll need some kind of light. You can use any kind of light that’s appropriate for your plants, but a combination of fluorescent and regular lighting is probably best. You’ll also need a thermostat. This is a device that controls the temperature of your growing area, so you can maintain a constant temperature throughout the day.
How much air is needed for a DWC system?
The short answer is that it depends on the plants you are growing. If you are growing plants that do not have a lot of surface area, then you will need more air than if you were growing plants with a lot of surface area. If you are growing plants in pots, then you will need more air than if you were growing them in a tray or other container.
Recirculating DWC Hydroponic System Conclusion
We hope by now you have learned how to build a recirculating deep water culture system.
When we’re talking about the best flowers to grow hydroponically, there are various options to choose from and we will list them for you.
Growing hydroponic flowers is one of the best methods to farm as you get faster growth, healthier plants with less disease, and a whole other benefit. Read on to know the best flowers to grow hydroponically.
Best Hydroponics Flowers To Grow
There are so many types of flowers that can be grown hydroponically. However, some are better than others. So, here are the best flowers to grow hydroponically and guidelines to growing these flowers:
Orchids
Orchids are one of the most loving flowers known and growing them in hydroponics is a perfect choice for any grower. With their irresistible gorgeous look, the orchid flower will mesmerize anyone in any ambiance you place them be it home, office, garden, etc. Now, these flowers come in thousands of species that you can choose from.
Here are some tips for growing orchid with hydroponics successfully:
Orchid requires accurate lightening but not direct light. It is their roots that require good lightening as photosynthesis occurs in the root as well as their leaves.
It requires optimal air circulation to the root system so ensure you use grow media such as pebbles and the likes.
The recommended pH should be between 5.5 to 6.5. Also, temperature requirements are around 60 to 80 degrees Fahrenheit.
Freesia
The sweet-smelling and amazing-looking freesia flower is one of the best flowers to grow hydroponically. Freesia will bloom gracefully and can give rise to different colors such as purple, orange, yellow, white, and red.
Here are some tips for growing freesia with hydroponics successfully:
The corm which is the bulb-like part of the freesia plant prefers to always stay dry. Thus, only the root touches the water nutrient solution.
Carnations
The carnation flowers are pretty and the most popular flowers grown in a hydroponics garden. They bloom so well and give a sweet-smelling fragrance that will give some bubbling spirit to your environment.
Here are some tips to growing carnations with hydroponics successfully:
Drip systems such as the Dutch bucket system, ebb and flow, and deep water culture are the recommended type of hydroponics systems to grow carnations.
The hours of light requirements are not demanding. It is between 5 to 9 hours.
PH for nutrient solution should be 6.0. Also, the temperature required is moderate which is around 55 to 65 degrees Fahrenheit during the day and 40 to 45 degrees Fahrenheit during the night.
Peace lilies
Peace lilies are one of the easiest flowers to grow and care for in hydroponics. They are great for decorative houseplants.
Here are some tips to growing peace lilies with hydroponics successfully:
Peace lilies do not like overwatering. Ensure only the root portion enters the water. Avoid the aerial body from touching the water.
Take note that peace lilies don’t like chlorine. Thus, ensure chlorinated water isn’t used in your hydroponic nutrient solution.
They can as well be grown successfully with the Kratky method.
Amaryllis
Amaryllis flowers are simply gorgeous. They come in varieties and cultivars for you to choose from. Amaryllis is usually grown as houseplants so they will be great options for your indoor hydroponic garden.
Here are some tips to growing amaryllis with hydroponics successfully:
Amaryllis bulbs are to remain dry always. Only their roots should enter into the hydroponic nutrient solution.
Amaryllis life stages should be comprehended well. Their dormant phase gives rise to the bulb. This is followed by the reproductive stage which has flowering and leaves. Then it is followed by the vegetative stage.
The ideal temperature for their reproductive stage is between 70 to 75 degrees Fahrenheit. While the ideal temperature for their vegetative stage should be between 50 to 55 degrees Fahrenheit.
Dahlias
Dahlias are beautiful flowers to grow hydroponically. They are similar to sunflowers, zinnia, and daisies. They bloom so vividly and elegantly giving your environment a feeling of love and perfection.
FAQ’s
Is growing flowers a popular route as far as hydroponics go?
Yes it is- It is actually one of the healthiest way to grow flowers and ensure that you end up with the best results.
Hydroponic gardening is a great way to grow flowers indoors and avoid all the hassles of potting soil. It’s also an ideal way to grow flowers in a small space. And if you have a greenhouse, it can be a great way to grow vegetables, herbs and flowers all year round.
For example, if you live in an apartment, it may be difficult or even impossible to grow flowers outdoors. Or perhaps you’re just looking for a new hobby.
Whatever the reason, growing flowers indoors can be a lot of fun. If you want to grow flowers indoors, you need to make sure that you have the right equipment. You’ll also need to make sure you have enough light for your plants. There are many different types of hydroponic systems available for growing plants indoors.
What flowers are great for hydroponics?
When it comes to growing hydroponic flowers, there are a variety of different options. If you want to grow the most amazing looking flowers in your garden, there are certain types that you can grow which will have a beautiful look and also yield a lot of delicious buds.
If you’re just starting out with flowers in hydroponics, you can start with the following types of flowers:
Tulips are one of the most popular types of flowering plants because they have beautiful flowers and can grow in almost any location. These are particularly great as they are a very adaptable flower.
Orchids grow very well as long as they get enough light. And they are particularly popular as they come in many different species that you can change up in every growing season.
Freesia is a wonderful option and beloved by those who love a wonderful blooming stage. If you want flowers that will keep you admiring them every step of the way, this is a great way to go.
Other popular ones include Snapdragons, Sunflowers, Dill and Chamomile.
Can roses grow hydroponically?
It is a common misconception that roses do not do well in water. In fact, most rose varieties do very well in this environment and, with the right care, will flower abundantly.
Don’t be dissuaded by the idea that roses are very hard to grow. They’re like a lot of other flowers, and as long as you attend to their various needs you’re sure to see wonders when their time comes to bloom.
If you really want to make them as healthy as possible, you’re strongly encouraged to grow them inside a greenhouse. This way you can really control everything so that they don’t receive any damaging effects-
Here are some tips to growing dahlias with hydroponics successfully:
Dahlias require you to space them appropriately in your hydroponics. You can plant them at least 12 inches apart.
Dahlias require optimal light for growth and blooming. Supply them with at least 8 hours of light per day.
They are warm-loving plants with temperatures between 60 to 72 degrees Fahrenheit. Their pH range from 6.5 to 7.5.
