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A rough definition of intensity (how intense) a light is might be how bright (the brightness) the light is. Intensity speaks to the luminance or luminosity of the light source. Under that definition, either red or blue light could be more intense. But if the information regarding the energy of light according to its color (or its wavelength or frequency), we would find that a photon of blue light has more energy than a photon of red light. Blue light has a shorter wavelength or higher frequency, and electromagnetic energy with higher frequency or shorter wavelength has more energy than light of the same intensity but of lower frequency or longer wavelength.
To travel far, you must have high intensity, which a normal torch light does not have to go through like, Marina Tench's depth. So! check the power of your torch light before diving at the great depth.Since the light goes on diverging (as you know from torch light) therefore the time that it reach the bed, the luminance of the light would get very low, so that is why the light can not travel deeper into the water. But intensity also matters here too. If you have very high intensity light source then you probably don't have to use any further more converging medium but if you use low intensity light source, no matter how much you try to converge it using a medium, it won't show as clear as the high intensity light did.
The produced disappears whether you switch it off or not - otherwise it would get brighter and brighter. In a closed room, the light would eventually be absorbed, and converted to heat. Outdoors, the light may go into outer space, going on and on and on... at a very high speed known as the "speed of light". In general, bet on heat. Light turns into heat.
chemical energy
Visible light of a different frequency is a different color. Visible light of a higher frequency is closer to the violet end of the spectrum. If the frequency of a light source were increased, then the wavelength of its emission would decrease, because the product of (frequency) x (wavelength) is always the same number for all light in the same medium.
Photosynthesis would come to a halt, glucose would no longer be produced.
There would be less glucose produced for respiration.
chloroplast
A photometer would measure the intensity of light, and a spectrometer would determine which frequencies are present.
Foot-candle is a unit of light intensity, not of power like watts. The power would vary, depending on the color of the light.Foot-candle is a unit of light intensity, not of power like watts. The power would vary, depending on the color of the light.Foot-candle is a unit of light intensity, not of power like watts. The power would vary, depending on the color of the light.Foot-candle is a unit of light intensity, not of power like watts. The power would vary, depending on the color of the light.
it just depends on the shade of blue and purple. if it is a dark purple and a light blue, then the light blue would have a higher intensity. if you look at any shade, the one that is brighter has the higher intensity of the two.
because if the light changed them so would the temperature
because if the light changed them so would the temperature
A rough definition of intensity (how intense) a light is might be how bright (the brightness) the light is. Intensity speaks to the luminance or luminosity of the light source. Under that definition, either red or blue light could be more intense. But if the information regarding the energy of light according to its color (or its wavelength or frequency), we would find that a photon of blue light has more energy than a photon of red light. Blue light has a shorter wavelength or higher frequency, and electromagnetic energy with higher frequency or shorter wavelength has more energy than light of the same intensity but of lower frequency or longer wavelength.
because if the light change so would the temperature
Approximately 36 ATP molecules would be produced.
There would be less glucose produced for respiration.