Answer:
According to Bohr's theory, an electron's path around the nucleus defines its
energy level.
Explanation:
It the certain energy by which the electrons have occupied there place in the orbitals. They can also be moved to the higher energy level by taking the energy from the surrounding. The emission of light can be seen when the electron falls from the higher energy state to the lower state. The orbital that is close to the atomic centre having the lowest energy level and the one that is found to be far away from the atomic centre has the highest energy level.
According to Bohr's theory, an electron's path around the nucleus defines its
d. Energy level.
It the specific energy by which the electrons have involved there place in the orbitals. They can likewise be moved to the higher energy level by taking the energy from the encompassing. The outflow of light should be visible when the electron tumbles from the higher energy state to the lower state. The orbital that is near the nuclear focus having the most reduced energy level and the one that is viewed as distant from the nuclear focus has the most noteworthy energy level.
Thus, correct option is d.
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