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Could you emit the same amount of light energy per second which must emit more photons per second a source of red light or a source of blue light?
A source of blue light would need to emit more photons per second to produce the same amount of energy as a source of red light. This is because blue light has higher energy photons, so fewer photons are needed to achieve the same total energy output as red light, which has lower energy photons.
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
Do microwave photons have more energy than photons of visible light?
A microwave signal at 50 GHz has waves that are 10,000 times as long as a visible signal at yellow (600 nm) has. Therefore the yellow photon carries 10,000 times as much energy as the 50 GHz photon does.
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.
Is blue light or red light hotter?
Red light is hotter than blue light. This is because red light has a longer wavelength and lower frequency compared to blue light, meaning it carries less energy. Temperature is related to the average kinetic energy of particles in a substance, and red light has less energy to transfer compared to blue light.
Could you emit the same amount of light energy per second which must emit more photons per second a source of red light or a source of blue light?
A source of blue light would need to emit more photons per second to produce the same amount of energy as a source of red light. This is because blue light has higher energy photons, so fewer photons are needed to achieve the same total energy output as red light, which has lower energy photons.
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
Do microwave photons have more energy than photons of visible light?
A microwave signal at 50 GHz has waves that are 10,000 times as long as a visible signal at yellow (600 nm) has. Therefore the yellow photon carries 10,000 times as much energy as the 50 GHz photon does.
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.
Is the number of photons in one j of red light 650 nm greater than equal to or less than the number of photons in one j of blue light?
The number of photons in one joule of light is inversely proportional to their wavelength. Since red light at 650 nm has a longer wavelength than blue light, which typically has a shorter wavelength (around 450 nm), there will be more photons in one joule of red light than in one joule of blue light. Therefore, the number of photons in one joule of red light is greater than the number of photons in one joule of blue light.
Why do photon of red light has a less penetrative ability than a gamma ray photon?
Well, honey, red light photons are like the friendly neighbor who stops by for a chat, while gamma ray photons are the aggressive door-to-door salesperson who won't take no for an answer. Red light photons have lower energy and longer wavelengths, making them less penetrative compared to the high-energy, short-wavelength gamma ray photons. It's like comparing a gentle breeze to a hurricane - one just doesn't pack the same punch as the other.
Why is there no substance that convert visible light to UV?
There is no substance that can directly convert visible light to UV because the energy required to promote electrons from the visible light energy levels to the UV energy levels is too high within a single step. The energy levels of the electrons in UV are simply too far apart from those in visible light for a direct conversion to occur.
Is blue light or red light hotter?
Red light is hotter than blue light. This is because red light has a longer wavelength and lower frequency compared to blue light, meaning it carries less energy. Temperature is related to the average kinetic energy of particles in a substance, and red light has less energy to transfer compared to blue light.
Do all color of light have the same amount of energy?
No. It's impossible for frequency to change without wavelength also changing.Wavelength multiplied by frequency always comes out to be the same number(the speed of the waves). So if either one of them increases, the other onehas to decrease.Different colors have different frequencies and different wavelengths.
What is the best color of light when a photographer wishes to use a safety light in the dark room that will emit low energy photons?
A red light is typically the best choice for a safety light in a darkroom because it emits low-energy photons that are less likely to affect light-sensitive materials such as photographic film or paper. This allows the photographer to see and move around in the darkroom without causing unwanted exposure.
Is it posible for a fluorescent material to emit radiation the ultraviolet region after observing visible light explain?
not possible, as visible light photons have less energy and ultraviolet photons need more energy. Energy can neither be created nor be destroyed. So by conservation principle ultraviolet photon as they fall on fluorescent material could give out less energetic light photons, but the converse is not possible.
What is the best color to use if a photographer wishes to use safety light in the darkroom that will emit low energy photons?
Red light is commonly used in darkrooms because it emits low-energy photons, which are less likely to affect light-sensitive materials. Red light also helps preserve night vision.
