1. Are electronic ballasts more energy efficent?
2. Is the socket assembly sold separate for the Green Gold ballasts?
3. Electronic vs. Magnetic ballasts
4. Important Hydroponic Factors
5. How big of an area will my light cover?
6. What size Fan do I need to ventilate my room?
7. What is the difference between MH and HPS?
8. What are the benefits of adding CO2 to my grow room?
9. When and how often do I need to use CO2?
10. Is a Reverse Osmosis system necessary?
11. What does an air stone do?
12. What are the different methods of controlling odor?
13. What is the difference between a supplement and a nutrient?
14. Can I reuse my soiless mix after harvesting a crop?
15. What do the 3 numbers stand for in a fertilizer mix for example 20-20-20
16. What is HID Lighting: Metal Halide & HPS?
17. What is the difference between MH and HPS Bulbs with regards to plant growth?
18. Can I mix my ballast type & wattage or run a 1000W bulb on an 400W ballast?
19. Can I run a 430 Watt HPS bulb in a 400 Watt HPS lighting system?
20. What is a conversion bulb?
21. How is Light Measured?
22. Color Rendering Index - CRI
23. What is the Color Temperature or "K" - Kelvin Rating?
24. What is Spectral Energy Distribution & PAR Watts?
25. What is the Lumen Measurement?
26. Are HPS/MH grow lights safe to run in my home?
27. Do I need to wear gloves when handling a (HID) Metal Halide or HPS Light Bulb?
28. Why do I need glass to get the UL Listing on a Metal Halide light?
29. How long should I run my lights?
30. How often do I need to change my light bulb?
31. How do I know my MH or HPS bulbs are functioning normally?
32. What is the difference between a Remote Ballast and Enclosed Ballast Light System?
33. What components are needed to make up a complete HPS or MH Light Kit?
34. What is a Remote Ballast Grow Light Kit?
35. What is an enclosed Ballast Grow Light Kits?
36. What is a Switchable Ballast?
37. What are the major differences between MH, HPS and electronic ballasts?
38. Are electronic ballasts more energy efficient?

 Electronic ballasts are more efficient at converting electricity into usable light. Since your power bill is based on kilowatt-hours and not efficiency, a 1000 watt electronic ballast will cost you about the same as a 1000 watt HID ballast to operate

2. No, we have incorporated the socket assembly into all of our ballast to facilitate things. Please take into consideration that every mounted ballast comes with 15' lamp cord and 8' power cord. The lamp cord is 120V plug ready for the USA and may be used for either 120v or 240v in Canada.
3. Electronic high-frequency ballasts increase lamp-ballast efficacy, leading to increased energy efficiency and lower operating costs. Electronic ballasts operate lamps using electronic switching power supply circuits. Electronic ballasts take incoming 60 Hz power (120 or 277 volts) and convert it to high-frequency AC (usually 20 to 40 kHz). Electronic ballasts are more efficient than magnetic ballasts in converting input power to the proper lamp power, and their operating of fluorescent lamps at higher frequencies reduces end losses, resulting in an overall lamp-ballast system efficacy increase of 15% to 20%
4. The most important factor in hydroponics however, is the nutrient solution that must be mixed with water. Standard fertilizers are inadequate, because they lack some of the elements necessary that the plants would otherwise derive from the soil. Specially-formulated hydroponic fertilizer mixtures are required. These are widely available, but should be tested after dilution to ensure a pH of between 5 and 6. The nutrient solution should be changed every two weeks. In between changes, make sure that the volume is kept level by adding more water only, and not additional fertilizer formula. If water evaporates and the water level gets too low, the nutrient solution will become too rich and could actually burn roots.
5. The size of the garden area will determine the wattage you need. If we assume that the plants will get no sunlight, a 1000 watt light will cover about 7 x 7 feet of growing area. A 600 watt will cover 6 x 6 feet, a 400 watt will cover 4 x 4 feet, and a 250 watt will cover 3 x 3 feet. These sized areas would be considered the "Primary Growing" areas. These lights will light-up larger areas, but plants placed outside of the Primary Growing area, will stretch and bend toward the light; a phenomenon called phototropism. Keep these areas of coverage in mind when using multiple fixtures. The best results occur when the areas of coverage overlap.
6. Fans are rated in cubic feet per minute or CFM, to figure out how many CFM's you need; start by determining the size of your room ({L}ength times {W}idth times {H}eight equals total volume {cubic feet}. Once you know the volume of your room you will need to get a fan that will vent the total volume in four minutes or less. A room with dimensions of 14' x 14' x 8' has a grand total of 1568 cubic feet. To find out how many CFM's it takes to do the room in four minutes divide by 4. 1568 divided by 4 equals 392 CFM. For this we would recommend a Green Gold Typhoon inline fan 6'' (420 CFM). You ultimately want to get your exhaust fans to a point where they only have to come on for a few minutes each hour to maintain a steady temperature and humidity, while still keeping the air fresh. MegaWatt offers a heatstat, coolstat, and a climate controller for use with these fans to help maintain environmental conditions.
7. MH lamps provide more of the blue/green spectrum, which is ideal for leafy crops, and/or plants that are in a vegetative (actively growing) stage. MH lamps provide a more natural appearance in color and are typically the choice for plants that have little to no natural light available. HPS lamps provide more yellow/orange/red spectrum, which is ideal for most plants that are actively fruiting and flowering. In addition, HPS lighting is the choice for growers looking to supplement natural sunlight. Ideally, the horticulturalist will use MH to grow their plants and HPS to fruit and flower their plants.

Many growers overlook the huge importance of CO2 to fast growing plants. CO2, along with light, are the two most important sources of food for plants. Plants take light and CO2, and through a process called photosynthesis, produce food for themselves. The nutrients that growers feed their plants are kind of like the salt and pepper, whereas the light and CO2 are like the meat and potatoes. The nutrients are necessary for photosynthesis to occur, but they are mainly a catalyst to allow the reactions to take place. In fact, if you were to analyze any plant, you would find that it consists of over 90 percent water, a few percent nutrients, and the rest is carbon.

Normal CO2 levels are between 300 to 500ppm (parts per million), depending on whether you live in an urban or rural area (we have almost 600ppm of CO2 here in Montreal!). Increasing these levels to 1500ppm can often have dramatic effects on your plants, including faster growth rates and increased yields. This is why it is so important to always have fresh air circulating into your grow room, or better yet, add supplemental CO2. We recommend you use quality north american made products such as Plug 'N Grow.

9 C02 should only be used when your lights are on, as plants only use CO2 during photosynthesis. C02 is most effective during the flowering stage, but BGH recommends using CO2 throughout the life of your plants for maximum results.

RO water, or reverse osmosis water, is tap water that undergone a process to strip all the impurities out of the water. Most city drinking water contains high sodium (Na), boron (B) and fluoride (F) levels. These impurities, at high enough concentrations, can be extremely toxic to plants. These elements may also reduce the uptake of other nutrients and thus cause slight deficiencies that may not be visible. RO machines also remove important plant nutrients from the tap water, such as calcium and magnesium.

This is why MegaWatt recommends using Magical when using RO water. The process of removing these impurities allows the grower to start with almost pure water (the RO process removes over 98% of the total dissolved solids). The grower may now add exactly what the plants require without pushing the ppmÕs too high. Plants grown with RO water, especially in a hydroponic system, will grow faster, yield more and exhibit fewer nutrient disorders then plants grown with tap water.

11. An air stone helps to provide oxygenate the nutrient solution. This oxygen is extremely beneficial to the root zone and helps to promote fast, healthy growth as well as prevent disease. This is one of the main reasons that plants growing in a hydroponic system grow so much faster than plants in soil. If you are growing in soil you can still reap some of the rewards of oxygen by simply oxygenating your water before applying it to the soil.
12. MountainAir Carbon Filters
  MountainAir Carbon Filters are the most effective choice for any grower who wishes to eliminate organic odors. The secret is in the carbon, which comes from a Pre Cambrian source making it the oldest and most effective carbon available. There are several brands of carbon filters on the market today, but almost all of them use coco coir carbon which doesnÕt filter as much of the odor and only lasts 8-12 months, and none can compare with the quality of the MountainAir carbon. Carbon filters can be used to clean outgoing air that is being vented out of a grow room or they can be used as a scrubber cleaning the air within the room. The size of your Carbon Filter is determined by the Maximum Watts of Light that you are running in your room
  ONA Spray, Liquid, Gel, Mist and blocks
  ONA Spray, Liquid, Gel, Mist and blocks are the simplest method of controlling odor. With the gel you simply remove the cap and leave it sitting in the room. In the case of the spray, simply spray into the air as necessary. After some time, the ONA Gel will begin to evaporate. When the container is half full simply add some of the liquid refill to reactivate the gel. Although quite effective in small areas, ONA products are usually not recommended for large areas, but because of the versatility of ONA product line they have implemented different model fan that can help disperse the scents throughout larger areas.
13. Nutrients are stand-alone, in other words plants can be grown successfully with nutrients with out the need for Supplements. Supplements are not stand alone. Supplements are used in addition to nutrients and are designed for a specific task, e.g. bloom stimulation, root development, flavor, etc.
  Root Stimulators - B'cuzz root, Root 66, Green Fuse Root Rootopia
  Growth Stimulators - B'cuzz Grow, Green Fuse Grow
  Flower and Fruit stimulators - Sugar Daddy, B'cuzz Bloom, Jurassic Bloom, B'cuzz PK 13/14, Green Fuse Bloom.
14. You can but the possibilities of fungal attack, soil born disease, pythium, and nutrient build up are too high to risk. The soiless medium is so cheap and easy to replace so I definitely recommend not reusing the soil less mix. Spend the 25 $ and buy a new bale. Your plants will love you for it
15. These numbers represent the percentage of:
  Nitrogen (N)
  Phosphorus (P)
  Potassium (K)
  These are the 3 main elements in plant fertilizer.
16. H.I.D. lighting stands for High Intensity Discharge, which is a special type of lighting that is much more intense than most other light sources available. HID lighting includes both High Pressure Sodium (HPS) and Metal Halide (MH) lighting. MH and HPS grow lights produce stronger, healthier seed starts, faster maturing plants, higher yields and increased flowering. HPS and Metal Halide lighting not only supplements sunlight but can replace it during the winter months. The light spectrum range produced by HPS or Metal Halide light bulbs enhances the natural light derived from the sun. In addition HPS and Metal Halide lighting is energy efficient and only requires about the same amount of energy as a standard kitchen appliance. The life of MH and HPS bulbs ranges from 6,000 to 20,000 hours depending on the wattage and bulb type.
17. MH lamps provide more of the blue/green spectrum, which is ideal for leafy crops, and/or plants that are in a vegetative (actively growing) stage. MH lamps provide a more natural appearance in color and are typically the choice for plants that have little to no natural light available. HPS lamps provide more yellow/orange/red spectrum, which is ideal for most plants that are actively fruiting and flowering. In addition, HPS lighting is the choice for growers looking to supplement natural sunlight. Ideally, the horticultural will use MH to grow their plants and HPS to fruit and flower their plants. HPS Grow Lights are available in 250, 400, 600 and 1000 Watts. Metal Halide grow lights are available in 250, 400 or 1000 Watts.
Emits a Red/Orange Color Spectrum
Promotes fruiting, flowering & budding
ncreases plant growth during fruiting & flowering stages
Use as supplemental lighting (with natural sunlight) or as secondary lighting
Emits a White/Blue Spectrum
Promotes plant growth
Use for leafy vegetables such as lettuce or herbs
Excellent for seedlings
Use especially if no natural light is available
BT37 Shaped Metal Halide Pictured
18. NO. HID lighting requires a special ballast or transformer to ignite the bulb or lamp. The internal components of the ballast are designed to send the correct voltage and current for the rated lamp. Mixing bulbs and ballasts will result in premature failure and will void the manufacturers’ warranty. Consider the size area you want your garden to be prior to making a lighting purchase. It is better to grow into a fixture than out of one. It is important to always match your ballast and lamp wattage and type. For example, do not use a 400W HPS light bulb with a 1000W HPS ballast. This may fire up the lamp but could cause the lamp to explode or will reduce its life. Also you cannot run a metal halide bulb on a HPS ballast or vice versa. The only exception is that a 430W HPS bulb will run on a 400W HPS ballast. Also, special bulbs called conversion light bulbs can be used to convert an HPS ballast to MH or vice versa.
19. Yes, a 430 Watt HPS light bulb will run on a standard 400W HPS ballast (Ansi S51). However, you will only receive 400 watts of light output
20. A Light Bulb or Lamp that operates on the opposite ballast it was originally designed for. For example, a 940 watt conversion lamp is an HPS lamp that runs on a 1000 watt Metal Halide Ballast. There are also MH lamps that are designed to operate on HPS ballasts. These bulbs allow the grower to purchase the ballast of their choice and offer the flexibility of growing a variety of plant types by simply changing the lamp they need. Conversion Light Bulbs can be found here:
21. The "color" of light sources comes from a complicated relationship derived from a number of different measurements, including correlated color temperature (CCT) or Kelvin temperature (K), color rendering index (CRI), and spectral distribution (PAR Watts). However, color is most accurately described by a combination of Kelvin temperature and CRI.
22. CRI is a numeric indication of a lamp's ability to render individual colors accurately. The CRI value comes from a comparison of the lamp's spectral distribution to the standard (e.g. a black body or the daytime sky) at the same color temperature. The higher the CRI the more natural and vibrant the colors will look. A bulb with a CRI of 85 or higher is excellent being that the sun has a CRI of 100. Emperor lamps make 90-92 CRI bulbs that are used in aquarium, horticulture and other applications. Standard Metal Halide bulbs have a CRI of about 70, so only 70% of colors will be rendered correctly. HPS bulbs have a CRI of 22.
23. The K rating is a generalized form of addressing the color output of a Light Bulb. Color Temperature is not how hot the lamp is. Color temperature is the relative whiteness of a piece of tungsten steel heated to that temperature in degrees Kelvin. HPS has a warm (red) color temperature of around 2700K as compared to MH at 4200K, which has a cool (blue) color temperature. The higher the kelvin temperature gets, the bluer. 10k lamps seem to be a nice crisp white, while higher kelvin can go from a blue/white to very blue and lower kelvin seem more like that of sunlight (6500k). Metal Halide bulbs go up to 20,000K (commonly used in aquariums) providing the bluest light.
24. The total visible spectrum is perceived by us humans as white light, but the "white light" is actually separated into a spectrum of colors from violet to blue, to green, yellow, orange and red made up of different wavelengths. Plants use the blue to red part of the spectrum as their energy source for photosynthesis. The different combinations and the relative intensity of various wavelengths of light determines the CRI of a light source.
Only part of solar radiation is used by plants for photosynthesis. This active radiation Photo synthetically Active Radiation (PAR) contains the wavelengths between 400 and 700 nanometers and falls just within the visible spectrum (380 - 770nm). The light in this region is called PAR watts when measuring the total amount of energy emitted per second. PAR watts directly indicates how much light energy is available for plants to use in photosynthesis.
25. Lumen is a measurement of light output. It refers to the amount of light emitted by one candle that falls on one square foot of surface located at a distance of one foot from the candle. Traditionally, lumens have been the benchmark of a lamps ability to grow plants; meaning the brighter the lamp the better the plant. However, studies have shown that a broader color spectrum lamp will perform much better than a lamp with high lumen output, especially when it comes to plant growth.
26. Metal Halide and HPS grow light systems are perfectly safe to run in your home. All of our grow light systems are manufactured with the highest quality and are CSA listed. The CSA listing indicates the grow light has been properly tested for safety
27. Manufacturers do not indicate that gloves are required when handling MH or HPS Bulbs. However, it is recommended that your hands be thoroughly washed prior to handling these bulbs. However you should handle bulbs very carefully and should wear gloves
28. The inner arc tube of a Metal Halide lamp contains mercury. Underwriters Laboratory has stated that for a Metal Halide fixture to maintain its UL Listing, that an additional tempered safety lens is required in the event that the arc-tube and outer glass fail. This will prevent the spread of Mercury
29. This depends on the type of plants and whether you have natural sunlight available to your garden. As a general rule, when you are in a vegetative stage of plant growth and you have no natural sunlight, run your lights 14-18 hours a day. If you have natural sunlight, it will vary because the sunlight may or may not be direct. It will take a little experimenting to find the best length of time to run your lights. If you are actively fruiting and flowering, the rule is to run your lights 12 hours a day if you have no natural light
30. HID (MH/HPS) bulbs should be replaced after 9 to 18 months of use. Although MH and HPS lamps will continue to light beyond 18 months of use, they will have lost up to 30 percent or more of their lumen output while consuming the same amount of electricity. The average life of a MH lamp is 12,000 hours for a 1000 watts lamp and 20,000 hours for a 400 watt lamp. The rated life hours for most HPS light bulbs is 24,000 hours. Most manufacturers rate their lamps by “Average Life Hours” and usually claim 10,000 to 24,000 hours. These ratings are based on when the lamp/bulb will completely fail to come on. They do not factor in loss of intensity or loss of color. MH and HPS light bulbs lose intensity and color through normal use. This is OK if you are lighting a warehouse, but when it comes to plant growth, these losses can mean wasted electricity and poor plant performance. Serious horticulturists recommend that replacing HPS or MH Light Bulbs after 6000 hours of use. This equates to using your light 16 hours a day for one year.
31. It may take MH or HPS bulbs 10-15 minutes to come to full brightness.
During the first few hours of use, the light from the lamp might oscillate.
The light will decrease in intensity during the life of the lamp.
During the first hours, intensity of the light may fluctuate somewhat, which is normal. After 100 hours of “burn in” time, the bulb will continue to burn evenly for the remainder of it's life (with normal aging reduction)
32. A Remote ballast kit is a system where the Ballast or transformer is a separate unit from the reflector. An enclosed Ballast light kit is a light system where the reflector and ballast are integrated in the same metal housing of these grow lights.
33. Ballast
Socket & Cord
Light Bulb
34. A Remote ballast kit is a system where the Ballast or transformer is a separate unit from the reflector. These ballasts are extremely heavy and some models are made to be wall mounted while others can simply be placed on the floor. Most of the items we sell are lighting systems (kits) for growing plants, herbs, seeds, and for greenhouses applications. Many of the items we offer are sold as Kits with many different options and components. A complete remote ballast grow light system would consist of a ballast, reflector, socket & cord and light bulb. The ballast (transformer) is needed to ignite the bulb. The reflector or hood is what is used to direct the light and usually has a reflective insert to provide greater light intensity. Many of the reflectors now come with the socket & cord pre-wired into the hood. So the components that would automatically be included in this system would be:
35. An enclosed Ballast light kit is a light system where the reflector and ballast are integrated in the same metal housing of these grow lights. A complete enclosed ballast grow light system would consist of a ballast/reflector reflector with and integrated socket & cord and light bulb. So the components that would automatically be included in this system would be:
36. Switchable light ballast grow lights allow using either a Metal Halide or a HPS lamp. To change from one type of lamp to the other, insert the appropriate lamp and set the switch. This enables growers to use the proper spectrums for vegetable growth (MH) and flowering (HPS) with a simple to use switch. The switchable ballast grow light kits that we carry include everything you needs.
37. Frequency output to the lamp and energy conversion from electricity to usable light are the biggest differences between HID (MH & HPS) ballasts and electronic ballasts. HID ballasts produce a frequency of 60 Hz. Electronic ballasts vary from manufacturer to manufacturer, but the frequency produced can be 400x that of an HID ballast. HID ballasts produce more heat than electronic ballasts, thus making electronic ballasts more energy efficient. You will not, however, save money on your electric bill by using electronic ballasts. HID lighting has been available for 60+ years, while electronic ballast (especially 400 watt and higher) is a relatively new technology.
38. Electronic ballasts are more efficient at converting electricity into usable light. Since your power bill is based on kilowatt-hours and not efficiency, a 1000 watt electronic ballast will cost you about the same as a 1000 watt HID ballast to operate.