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How does the electron's energy change as the orbit of the electron increases?
As the orbit of the electron increases, the electron's energy also increases. Electrons in higher energy orbits are farther from the nucleus and have more potential energy. Conversely, electrons in lower energy orbits are closer to the nucleus and have less energy.
What moved in fixed orbits around the nucleus in Bohr's model of a the atom?
Electrons moved in fixed orbits around the nucleus in Bohr's model of the atom. These orbits were quantized, meaning they had specific energy levels, and electrons could jump between these orbits by either absorbing or emitting energy.
How did electrons on Bohr's model move?
On Bohr's model of the atom, electrons move in circular orbits around the nucleus. These orbits have specific energy levels, and electrons can transition between these orbits by either absorbing or emitting energy in the form of photons. The orbits were quantized, meaning that only certain orbits were allowed for the electrons to move in.
In the bohr model what happens when an electron makes transitions between orbits?
The electrons can only travel in certain orbits: at a certain discrete set of distances from the nucleus with specific energies. # The electrons of an atom revolve around the nucleus in orbits. These orbits are associated with definite energies and are also called energy shells or energy levels
Does the inner or outer orbits hold more electrons?
The inner orbits (closer to the nucleus) hold fewer electrons than the outer orbits. Each orbit has a maximum capacity of electrons it can hold based on its energy level. The further away an orbit is from the nucleus, the higher its energy level and the more electrons it can hold.
Area where electrons travel around necleus?
Energy levels or energy shells or orbits
The paths in wich electrons circle the nucleus according to the Bohr model?
In the Bohr model, electrons circle the nucleus in specific orbits or energy levels, each with a fixed radius and energy value. These orbits are quantized, meaning electrons can only exist in certain stable orbits without radiating energy. The model's main idea is that electrons move in circular orbits at fixed distances from the nucleus, similar to planets orbiting the sun.
What is stationary orbits of an atom?
Stationary orbits of an atom refer to the specific energy levels that electrons can occupy around the nucleus without emitting or absorbing energy. These orbits are defined by the quantized energy levels in which electrons can orbit the nucleus. The concept of stationary orbits forms the basis of Bohr's model of the atom.
What best describes the different orbits that electrons can occupy?
energy levels
Electron arrangements for the Bohr atom?
In the Bohr model, electrons are arranged in discrete orbits around the nucleus. These orbits are associated with specific energy levels. Electrons can move between these orbits by absorbing or emitting energy in quantized amounts.
According to the Bohr model how do electrons move in atoms?
In the Bohr model, electrons move in circular orbits around the nucleus at specific energy levels. These energy levels are quantized, meaning electrons can only occupy certain orbits corresponding to specific energy values. Electrons can jump between these energy levels by either absorbing or emitting energy in the form of photons.
Where are the electrons found in bhors atomic model?
In Bohr's atomic model, electrons are found in specific, quantized orbits or energy levels around the nucleus of an atom. These orbits are circular paths where electrons can exist without radiating energy. The distance of each orbit from the nucleus corresponds to a specific energy level, with higher energy levels being farther from the nucleus. Electrons can move between these orbits by absorbing or emitting energy, typically in the form of photons.
