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Why red has a greater wavelength than blue?
Red light has a greater wavelength than blue light because red light has a lower frequency and energy. In the electromagnetic spectrum, longer wavelengths correspond to lower frequencies, while shorter wavelengths correspond to higher frequencies. Therefore, red light, with its longer wavelength, has a lower frequency compared to blue light.
Does blue light have travel at a different frequency than red light in the same medium?
Yes. Blue light has a shorter wavelength, and therefore a higher frequency, than red light.
What happens when you add blue light to red solid?
When blue light is shone on a red solid, the red solid will absorb the blue light and reflect or transmit the red color. This is because the red solid absorbs blue light due to its selective absorption properties.
What would a red object look like shone onto a blue light?
Red and blue are at opposite ends of the visible light spectrum, red being of low frequency, and blue being of high frequency. Sunlight contains frequencies across the whole frequency range, which appears white. An object that appears white reflects all frequencies. A red object appears red because it reflects red (low frequency) light, and absorbs all other colours. Blue light contains only high frequencies. If you are in a darkened room, lit only by blue light, white objects will appear blue because they are reflecting the blue light, and no other frequency is available. But a red object absorbs high-frequency (blue) light, and since this is the only light in the room, it does not reflect any light. Objects that do not reflect any light appear black. Some objects appear black even in sunlight, because they absorb all frequencies and do not reflect any. So to answer the question, when you have a red object that is lit only by blue light, it will appear black.
What colour is red light if you look at it through a blue filter?
You can't see it because a blue filter only lets blue light in, and red is made up of just red light, no blue, so none passes through (or it gets reflected, can't remember which)
Why red has a greater wavelength than blue?
Red light has a greater wavelength than blue light because red light has a lower frequency and energy. In the electromagnetic spectrum, longer wavelengths correspond to lower frequencies, while shorter wavelengths correspond to higher frequencies. Therefore, red light, with its longer wavelength, has a lower frequency compared to blue light.
Does blue light have travel at a different frequency than red light in the same medium?
Yes. Blue light has a shorter wavelength, and therefore a higher frequency, than red light.
What happens when you add blue light to red solid?
When blue light is shone on a red solid, the red solid will absorb the blue light and reflect or transmit the red color. This is because the red solid absorbs blue light due to its selective absorption properties.
Is visible light used for photosynthesis?
Yes,visible light is used. Frequencies of blue and red absorbed effectively
What would a red object look like shone onto a blue light?
Red and blue are at opposite ends of the visible light spectrum, red being of low frequency, and blue being of high frequency. Sunlight contains frequencies across the whole frequency range, which appears white. An object that appears white reflects all frequencies. A red object appears red because it reflects red (low frequency) light, and absorbs all other colours. Blue light contains only high frequencies. If you are in a darkened room, lit only by blue light, white objects will appear blue because they are reflecting the blue light, and no other frequency is available. But a red object absorbs high-frequency (blue) light, and since this is the only light in the room, it does not reflect any light. Objects that do not reflect any light appear black. Some objects appear black even in sunlight, because they absorb all frequencies and do not reflect any. So to answer the question, when you have a red object that is lit only by blue light, it will appear black.
What colour is red light if you look at it through a blue filter?
You can't see it because a blue filter only lets blue light in, and red is made up of just red light, no blue, so none passes through (or it gets reflected, can't remember which)
How will you relate color light with frequency?
Color light is determined by the frequency of the light waves. Different colors of light correspond to different frequencies of light waves. For example, red light has a lower frequency than blue light. The relationship between color light and frequency is that higher frequencies are associated with colors towards the violet end of the spectrum, while lower frequencies are associated with colors towards the red end.
How do the wavelength and frequency of red light compare to the wavelength and frequency of blue light?
Red light has a longer wavelength and lower frequency compared to blue light. Blue light has a shorter wavelength and higher frequency, which is why it appears bluer in color to the human eye.
Why does red absorb more light than blue?
Red does as it absorbs photons at blue end of the spectrum( the higher energy) and reflects light at the red end of the spectrum (a lower energy). While the blue light absorbs energy at the red end of the spectrum and reflects blue light
Which had the lower energy quanta red light or blue light?
Light of is made up of a finite number of photons, or light quanta. The energy of each photon is proportional to the frequency of the light, and hence inversely proportional to the wavelength of the light. Red light has a longer wavelength than blue light, so the quantum of red light has less energy than the quantum of blue light.
What is primary and secondary colors of light?
Primary colours of light are red, blue and green and when combined in the correct intensity they produce white light. The secondary colours of light are magenta, yellow and cyan which result from combinations at the correct frequencies of primary colours.
What frequencies of visible light are transmitted through a piece of glass if the glass appears purple?
If the glass appears purple, it means it is absorbing most of the green, yellow, and red light frequencies. This leaves mainly blue and red light to be transmitted through the glass, giving it a purple appearance.
