Is common incandescent lamp good for plant growth?
The chlorophyll of photosynthesis in plants, there are two main spectral range of chlorophyll can be absorbed directly, one is in the red part of the wavelength of 640~660nm, the other is a blue violet light wavelength of 430~450nm, in addition to plant xanthophyll and carotene can absorb energy and transfer to chlorophyll photosynthesis, xanthophyll and carotene the absorption spectral range is about 400~500nm, slightly wider than chlorophyll absorption direct blue violet range, so the plant can use all the spectral range is 640~660nm+400~500nm two intervals, as long as the light spectrum and the range of overlap, can be used for plant photosynthesis.
The chlorophyll of photosynthesis in plants, there are two main spectral range of chlorophyll can be absorbed directly, one is in the red part of the wavelength of 640~660nm, the other is a blue violet light wavelength of 430~450nm, in addition to plant xanthophyll and carotene can absorb energy and transfer to chlorophyll photosynthesis, xanthophyll and carotene the absorption spectral range is about 400~500nm, slightly wider than chlorophyll absorption direct blue violet range, so the plant can use all the spectral range is 640~660nm+400~500nm two intervals, as long as the light spectrum and the range of overlap, can be used for plant photosynthesis.
The chlorophyll of photosynthesis in plants, there are two main spectral range of chlorophyll can be absorbed directly, one is in the red part of the wavelength of 640~660nm, the other is a blue violet light wavelength of 430~450nm, in addition to plant xanthophyll and carotene can absorb energy and transfer to chlorophyll photosynthesis, xanthophyll and carotene the absorption spectral range is about 400~500nm, slightly wider than chlorophyll absorption direct blue violet range, so the plant can use all the spectral range is 640~660nm+400~500nm two intervals, as long as the light spectrum and the range of overlap, can be used for plant photosynthesis.