White light!!! :D
White
blue and red light.
There is no such thing as a white LED. You produce white light from LEDs by combining red, green and blue LEDs. Red LEDs were produced first because red is a low frequency of light. It was the easiest to make. Green LEDs were produced next because green is a higher frequency of light. It was harder to make. By combining red and green LEDs, you can produce yellow light. Blue is a very high frequency of light and is very hard to produce. Blue LEDs and blue lasers (as in BluRay) took a great deal of effort to create. LED technology and some kinds of laser technology are very closely related.
In order to store energy, the plants need to photosynthesise at a greater rate than they perform respiration. In low light intensities, less photosynthesis can occur, as there is less light energy available for the light-dependent stage. Therefore, if less respiration is occurring, this allows for the lower rate of photosynthesis, thus allowing the plant to still store energy.
Yes. Some plants prefer direct sunlight and some need less.
Leaves are the solar panels of plants. Their most common adaptation is to use chlorophyll to absorb sunlight. Combining the light with water creates potential energy through a chemical process known as photosynthesis. The green wavelength of light is the least useful and reflected back, which why they appear green to us.
Equal intensities of Red, Green and Blue light will appear white to the eye.
Equal intensities of Red, Green and Blue light will appear white to the eye.
when are different intensities of light used in compound microscope
White light.
When red, blue and green light is combined, it creates white light (theoretically).
blue and red light.
A light green
When you add colors of paint, you are adding the wavelengths of light that are absorbed by the paint. When you add light, you combine the wavelength that you see. For example, when you add green, red and blue light, you get white light because white is a combination of all light. When you add red, green and blue paint however, that means that all non-red, non-green and non-blue light is absorbed, which will leave you with nothing (black).
No. Different forms of phytochrome absorb different wavelengths of light. Different forms of phytochrome are scattered throughout the plant. This allows the plant to perceive different intensities, wavelengths, and quality of light. Hope that helped!
yellow
As light intensity increases at first the rate of photosynthesis also increases. However at higher light intensities the rate of photosynthesis levels off and becmes constant. This is because light is not the only factor needed for photosynthesis. So at high light intensities some other factor is running out eg CO2, temperature, so the extra light cannot be used. At very high intensities photosynthesis can decrease as the chlorophyll is bleached.
Because plants use light as their food, the more light, the more they'll grow.