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Energy of a photon of this wave would be (planck's constant) ( frequency) E = hf = 5.46 * 10-22 J So to find the energy of the whole wave, multiply the energy of a photon to the no. of photons in a wave.
Photon.Bundles of light energy produced by electron movement are called photons. A photon is an elementary particle, the quantum of light and all other forms of electromagnetic radiation.
Planck's Constant (abbreviated as 'h'), when first "discovered," was found to be the ratio of the energy of an individual photon to the frequency of that photon's light. In other words, the energy of a photon is equal to h times the photon's frequency. It has since been found that h fits into a wide variety of formula that allow us to understand the Universe we happen to live in. Without this constant, a lot of our Universe would be incomprehensible.
Waves with lower frequency: for example radio waves.
The energy in one photon of any electromagnetic radiation is directly proportionalto its frequency, so that would be inversely proportional to its wavelength.Note: There is no energy in the protons of light, since light has no protons.
Energy of a photon of this wave would be (planck's constant) ( frequency) E = hf = 5.46 * 10-22 J So to find the energy of the whole wave, multiply the energy of a photon to the no. of photons in a wave.
no
No, as energy is absorbed. When the reverse happens, the higher state to lower state, the electron is returning to its lower energy level ground state and energy is released in the form of a photon.
No, sound wave is translating wave of the matter. The solar energy is the wave carried by photon which is an energy (non-matter). There is no way a sound wave would be carried in the stream of photon.
Red color
it would be that of the Ground State
it gets hit by a photon of light energy and moves up to a higher energy orbital
No. Those would be absorption lines.
Photon.Bundles of light energy produced by electron movement are called photons. A photon is an elementary particle, the quantum of light and all other forms of electromagnetic radiation.
This question is subjective. That would probably be a single photon. Although photon is energy, due to the mass-energy equivalence principle, you can consider a photon to be matter. It is affected by gravity. An electron is also a fundamental particle that can be easily produced in the lab. It has a reast mass (and a negative charge).
Planck's Constant (abbreviated as 'h'), when first "discovered," was found to be the ratio of the energy of an individual photon to the frequency of that photon's light. In other words, the energy of a photon is equal to h times the photon's frequency. It has since been found that h fits into a wide variety of formula that allow us to understand the Universe we happen to live in. Without this constant, a lot of our Universe would be incomprehensible.
Planck's Constant (abbreviated as 'h'), when first "discovered," was found to be the ratio of the energy of an individual photon to the frequency of that photon's light. In other words, the energy of a photon is equal to h times the photon's frequency. It has since been found that h fits into a wide variety of formula that allow us to understand the Universe we happen to live in. Without this constant, a lot of our Universe would be incomprehensible.