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When an atom in an excited state returns to it's ground state what happens to the excess energy or the atom?
When an atom in an excited state returns to its ground state, it releases the excess energy it gained during excitation, typically in the form of electromagnetic radiation, such as photons. This process is known as spontaneous emission. The energy of the emitted photon corresponds to the difference in energy levels between the excited state and the ground state. If the transition occurs in a controlled manner, such as in lasers, the emitted photons can be coherent and in phase with each other.
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When an atom in the excited state returns to its ground state what happens to the excess energy of the atom?
When an atom in an excited state returns to its ground state, it releases the excess energy in the form of electromagnetic radiation, typically as a photon. The energy of the emitted photon corresponds to the difference in energy levels between the excited state and the ground state. This process is fundamental to phenomena such as fluorescence and the emission spectra of elements.
When an atom returns to its ground state what happens to the excess energy of the atom?
it is released (emitted) as part of the electromagnetic spectrum.
Which of the following correctly explains how energy is emitted when an atom returns to the ground state?
There is insufficient information in the question to properly answer it. You did not provide the list of "the following". In general, however, if it is the nucleus that returns to ground state, then gamma ray emission is the mechanism. It it is the electron cloud the returns to ground state, then x-ray emission is the mechanism. The end result is the same - a photon is emitted with a certain energy - only the mechanism differs.
According to Bohr's theory what would an excited atom do?
Excited atoms, according to Bohr's theory, would release the excess energy by emitting photons of specific frequencies as they return to lower energy states. This emission of light is known as atomic emission.
When metal is heated the light emitted is because it gains energy as they return to lower energy levels?
Yes, when metal is heated, the atoms in the metal absorb energy and become excited. As they return to their normal energy levels, they release this excess energy in the form of light, which is known as incandescence. This is why heated metal appears to glow.
When an atom in the excited state returns to its ground state what happens to the excess energy of the atom?
When an atom in an excited state returns to its ground state, it releases the excess energy in the form of electromagnetic radiation, typically as a photon. The energy of the emitted photon corresponds to the difference in energy levels between the excited state and the ground state. This process is fundamental to phenomena such as fluorescence and the emission spectra of elements.
When an atom returns to the ground state what happens to the excess energy of the atom?
it is released (emitted) as part of the electromagnetic spectrum.
When an atom returns to its ground state what happens to the excess energy of the atom?
it is released (emitted) as part of the electromagnetic spectrum.
What happens if an atom is supplied with excess energy?
An electron may change to an excited state, and an electron may move to a higher orbit.
Which of the following correctly explains how energy is emitted when an atom returns to the ground state?
There is insufficient information in the question to properly answer it. You did not provide the list of "the following". In general, however, if it is the nucleus that returns to ground state, then gamma ray emission is the mechanism. It it is the electron cloud the returns to ground state, then x-ray emission is the mechanism. The end result is the same - a photon is emitted with a certain energy - only the mechanism differs.
Why do dogs run in circles when they are excited?
Dogs run in circles when they are excited because it is a natural instinct that helps release excess energy and express their excitement in a physical way.
Why does a dog run in circles when excited?
Dogs run in circles when excited because it is a natural behavior that helps release excess energy and express their excitement in a physical way.
According to Bohr's theory what would an excited atom do?
Excited atoms, according to Bohr's theory, would release the excess energy by emitting photons of specific frequencies as they return to lower energy states. This emission of light is known as atomic emission.
What happens if you eat energy giving food in excess?
it will cause obesity
When metal is heated the light emitted is because it gains energy as they return to lower energy levels?
Yes, when metal is heated, the atoms in the metal absorb energy and become excited. As they return to their normal energy levels, they release this excess energy in the form of light, which is known as incandescence. This is why heated metal appears to glow.
Why do babies shake their arms when they are excited?
Babies shake their arms when they are excited because they are expressing their emotions through physical movements. This behavior is a natural way for babies to release excess energy and show their excitement.
Why do dogs run in circles when they get excited?
Dogs may run in circles when excited due to a natural instinct to release excess energy and excitement. This behavior is often seen as a way for dogs to express their excitement and anticipation.
