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Why do the Balmer lines of hydrogen get closer together?
The Balmer lines of hydrogen get closer together because as electrons move from higher energy levels to lower energy levels, the energy difference between the levels decreases, causing the wavelengths of light emitted to be closer together.
The color of light emitted by an atom is most closely related to?
The color of light emitted by an atom is most closely related to the energy difference between the atomic energy levels involved in the transition. Each element has specific energy levels that determine the color of light it emits when an electron transitions between them. This relationship follows the principles of quantum mechanics.
Why are only certain colors of light absorbed by and emitted from an atom?
Each atom has specific energy levels for their electrons. When light is absorbed or emitted, it causes these electrons to move between energy levels. Only light with energy corresponding to the energy difference between these levels will be absorbed or emitted, resulting in specific colors for each atom.
What determines which photon an atom can absorb or emit?
An atom can absorb or emit photons based on its energy levels and electronic structure. When a photon energy matches the energy difference between two energy levels in the atom, it can be absorbed or emitted. This is governed by the quantized nature of energy levels in atoms.
How would you explain how electrons emit?
Electrons emit energy in the form of photons when they transition to lower energy levels within an atom. This emission of light occurs due to the release of energy that was absorbed previously by the electron. The energy of the emitted photon is proportional to the difference in energy levels between the initial and final states of the electron.
What causes photons to be emitted from excited atoms?
The energy difference, between two energy levels, is emitted as a photon, when the electron "falls down" to a lower energy level.
What does the electron produce when they change energy levels?
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.
How did Bohr explain the line spectrum of hydrogen?
The difference in energy between the energy levels determines color of light emitted when an electron moves from one energy level to another.
How energy is emitted when an atom returns to the ground state?
When an atom returns to the ground state, it releases the excess energy in the form of light. This process is known as emission of photons. The energy of the emitted photon is determined by the difference in energy levels between the initial and final states of the atom.
Why do the Balmer lines of hydrogen get closer together?
The Balmer lines of hydrogen get closer together because as electrons move from higher energy levels to lower energy levels, the energy difference between the levels decreases, causing the wavelengths of light emitted to be closer together.
Quanta of light emitted from 1 electron drops from the 7th to 2nd energy level?
When an electron drops from the 7th to the 2nd energy level in an atom, it emits a photon of light. The energy of this photon corresponds to the difference in energy between these two levels. The amount of energy difference is specific to the atom involved, and the photon emitted will have a specific wavelength and color based on this energy difference.
When 10 electrons drop from fifth to second energy level?
When 10 electrons drop from the fifth to the second energy level, energy in the form of photons is emitted. The energy of the emitted photon is equal to the difference in energy levels between the initial and final states of the electrons. This process is known as photon emission or de-excitation.
What were electrons doing when the green light was emitted?
When green light is emitted, electrons are transitioning from higher energy levels to lower energy levels within an atom. This release of energy appears as light in the green wavelength range.
The color of light emitted by an atom is most closely related to?
The color of light emitted by an atom is most closely related to the energy difference between the atomic energy levels involved in the transition. Each element has specific energy levels that determine the color of light it emits when an electron transitions between them. This relationship follows the principles of quantum mechanics.
Why are only certain colors of light absorbed by and emitted from an atom?
Each atom has specific energy levels for their electrons. When light is absorbed or emitted, it causes these electrons to move between energy levels. Only light with energy corresponding to the energy difference between these levels will be absorbed or emitted, resulting in specific colors for each atom.
What determines which photon an atom can absorb or emit?
An atom can absorb or emit photons based on its energy levels and electronic structure. When a photon energy matches the energy difference between two energy levels in the atom, it can be absorbed or emitted. This is governed by the quantized nature of energy levels in atoms.
Why do you think are there different color emitted?
There different colors emitted
