When an elctron is excited (has energy) it is extremely unstable, so it falls back to its previous energy level, and when it does this it releases energy, and this energy is viewed as wavelengths of light. So the color depends on the amount of energy the atom releases when it falls back to its lower energy level.
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∙ 13y agoWhen an electron absorbs energy, it jumps to a higher energy level within an atom. When it returns to its original energy level, it releases that energy in the form of light. The color produced depends on the specific amount of energy released, which corresponds to a specific wavelength of light.
When electrons change energy levels, they emit light or energy in the form of electromagnetic radiation. This emitted light can have specific frequencies or colors, depending on the difference in energy levels that the electron undergoes.
Electron excitation occurs when an electron absorbs energy, typically through interactions with photons or collisions with other particles. This absorbed energy can elevate the electron to a higher energy level within an atom or molecule.
Produce ATP using energy of NADH2 and FADH2
The smallest energy drop of an electron produces red light. When an electron transitions to its lowest energy level, it emits a photon with the least energy, corresponding to the red wavelength of light.
The series of electron acceptors in the thylakoid membrane that remove energy from excited electrons to produce ATP is known as the electron transport chain (ETC). As electrons move through the ETC, their energy is used to pump protons across the membrane, creating a proton gradient. This gradient drives ATP synthesis through ATP synthase.
When electrons change energy levels, they emit light or energy in the form of electromagnetic radiation. This emitted light can have specific frequencies or colors, depending on the difference in energy levels that the electron undergoes.
Mitochondria. These organelles using the electron transport chain are able to produce ATP which is the major energy unit in cells. Mitochondria produce energy from food Chloroplasts- produce energy from sunlight.
Produce ATP using energy of NADH2 and FADH2
When an atom or molecule absorbs energy, its electrons become excited and move to higher energy levels. When the electrons return to their original position, they release energy in the form of light. The specific energy levels of the electrons determine the color of light emitted, and different gases have different electron configurations, resulting in unique colors being produced.
An electron transport chain.
produce ATP.
Produce ATP using energy of NADH2 and FADH2
it is higly speed waves which knock out electron from gas atom in air or which provide energy to electron of atom due which electron jum to higher energy shell and continously this process occure and spark light are produce.
When a positron and an electron collide, they annihilate each other and produce gamma rays. This process is known as electron-positron annihilation. The total energy of the particles is converted into electromagnetic energy in the form of gamma rays.
Argon ionization energy is the amount of energy required to remove an electron from a neutral argon atom to produce a positively charged ion. In the case of argon, this energy is relatively high due to its stable electron configuration.
When electron falls from 7th orbit to 3rd orbit then it release energy which can be seen in the form of colour.
A single electron can produce different wavelengths and frequencies through interactions with different energy levels within an atom or molecule. When the electron transitions between these energy levels, it emits or absorbs photons with varying energies, resulting in a spectrum of wavelengths and frequencies.