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The high energy photon that results from the redistribution of the charge within the nucleus is called a gamma ray. It refers to a penetrating electromagnetic radiation that arises from the radioactive decay of atomic nuclei.
Gamma Ray
No. A photon has no rest mass an electron has mass.
The photoelectric effect is a phenomenom that occurs when you fire a photon with high enough energy aggainst matter, and it expells an electron after absorbing the photon's energy.
Electric potential can be high when electrical potential energy is relatively low if the charge is low as well. ... It is correct to say that an object with twice the electric potential of another has twice the electrical potential energy only if the charges are the same.
The high energy photon that results from the redistribution of the charge within the nucleus is called a gamma ray. It refers to a penetrating electromagnetic radiation that arises from the radioactive decay of atomic nuclei.
Gamma Ray
You can if you want martian bears to steal it and make it into a high energy photon gun.
True. A gamma ray is a high-energy photon, and thus moves at the speed of light. And, like all photons, it has no charge.
No. A photon has no rest mass an electron has mass.
The photoelectric effect is a phenomenom that occurs when you fire a photon with high enough energy aggainst matter, and it expells an electron after absorbing the photon's energy.
I think it is because a photon has less energy that is why it has less ability than a gamma ray photon
Electric potential can be high when electrical potential energy is relatively low if the charge is low as well. ... It is correct to say that an object with twice the electric potential of another has twice the electrical potential energy only if the charges are the same.
X-ray Photon
Infrared radiation has less energy (per photon) than visible light.
gamma ray
This is a tricky question because there is more than one form of energy in light. There is the energy that each particle of light (the photon) has and there is group energy which is the sum total of all the photon energy as they travel as a group (like in a laser beam). But the good news is that the answer is FALSE for both the photon and group energies. Photon energy depends on the photon fundamental frequency. And the higher the energy the bluer the color, which can run from red to violet. Those photons in the violet color have higher energy than photons in the red color frequency. And group energy is just the sum of all the photon energies in a group, like a light beam from your flashlight (aka, torch). So for a given mix of photons, the more photons in the group the higher is the group energy level. What we call light intensity (e.g., bright or dim) depends on the group energy with high energy equating to high intensity.