red and blue light is most useful. But others are not.
Green wavelengths (wavelengths around 500-600 nm) are the least useful to photosynthesis. This is because chlorophyll, the pigment responsible for absorbing light in photosynthesis, reflects green light instead of absorbing it. Therefore, green light is not as effectively utilized for driving photosynthetic reactions.
Green light has the least effect on photosynthesis because it is poorly absorbed by chlorophyll, which is the pigment responsible for capturing light energy during photosynthesis. This means that plants do not use green light as efficiently as other colors for photosynthesis.
Relying solely on color to identify minerals can be the least useful method, as many minerals can have similar colors but different compositions. This can lead to misidentification and confusion.
Green light is typically the least effective color for photosynthesis as plants primarily absorb red and blue light for this process. Green light is reflected or transmitted through the plant, resulting in minimal energy being absorbed for photosynthesis.
You would not want to grow a plant in green light because the chlorophyll reflects green light. Many other colors can be used however including red, yellow, and blue. Although it is true that other pigments exist in chlorophyll the primary color is green.
Green light is the least useful wavelength for photosynthesis because it is mostly reflected by chlorophyll. Red and blue light are the most useful wavelengths for photosynthesis as chlorophyll absorbs them most efficiently for the process.
Density is the least useful property for identification because different specimens of the same type of mineral can vary in size. -Color is the least useful property for identification because it is the most obvious property.
Color and streak would be the least useful, because they may be shared by a multitude of other minerals.
Because many of the minerals share the same color.
Luster is typically considered the least useful mineral property, as it does not provide much information about the mineral's identity or composition. Luster simply describes how light is reflected off the surface of a mineral, such as metallic, glassy, or dull, and can vary even within the same mineral species.
Green wavelengths (wavelengths around 500-600 nm) are the least useful to photosynthesis. This is because chlorophyll, the pigment responsible for absorbing light in photosynthesis, reflects green light instead of absorbing it. Therefore, green light is not as effectively utilized for driving photosynthetic reactions.
Color and streak would be the least useful, because they may be shared by a multitude of other minerals.
habit, color, streak, luster, density, hardness, cleavage, fracture, tenacity
Green light has the least effect on photosynthesis because it is poorly absorbed by chlorophyll, which is the pigment responsible for capturing light energy during photosynthesis. This means that plants do not use green light as efficiently as other colors for photosynthesis.
Color, It can point you in the right direction but color lies all the time
Relying solely on color to identify minerals can be the least useful method, as many minerals can have similar colors but different compositions. This can lead to misidentification and confusion.
Green light is typically the least effective color for photosynthesis as plants primarily absorb red and blue light for this process. Green light is reflected or transmitted through the plant, resulting in minimal energy being absorbed for photosynthesis.