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Yes, there is a limit to the number of electrons that can occupy a single shell in an atom. The maximum number of electrons that can occupy a particular shell can be determined using the formula 2n^2, where n represents the shell number.

The electron shells are labeled with principal quantum numbers (n) starting from 1 for the innermost shell, then 2 for the next shell, and so on. Each shell consists of one or more subshells, which are further divided into orbitals.

The maximum number of electrons in a shell can be calculated as follows:

  • For the first shell (n = 1), the maximum number of electrons is 2(1)^2 = 2.
  • For the second shell (n = 2), the maximum number of electrons is 2(2)^2 = 8.
  • For the third shell (n = 3), the maximum number of electrons is 2(3)^2 = 18.
  • For the fourth shell (n = 4), the maximum number of electrons is 2(4)^2 = 32.

It's important to note that while the formula provides the maximum number of electrons a shell can accommodate, the actual distribution of electrons within the shell follows certain rules and principles, such as the Aufbau principle, Pauli exclusion principle, and Hund's rule, which govern the filling of orbitals in a specific order.

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