How many possible orbitals are there for n=10?
In quantum mechanics, the number of possible orbitals for a given energy level is given by the formula 2n^2, where n is the principal quantum number.
For n = 10, the number of possible orbitals can be calculated as 2 * 10^2 = 200.
So, there are 200 possible orbitals for n = 10.
i thought the answer was 100
Apologies for the mistake. You are correct.
The number of possible orbitals for a given energy level is equal to 2n^2. Therefore, for n = 10, we have:
2 * 10^2 = 2 * 100 = 200.
So, there are 100 possible orbitals for n = 10.
To determine the number of possible orbitals for a given energy level (n), we can use the formula 2n².
For n = 10, the number of possible orbitals can be calculated as:
2n² = 2 * 10²
= 2 * 100
= 200
Therefore, there are a total of 200 possible orbitals for n = 10.
To determine how many possible orbitals there are for n=10, we need to use the formula for the maximum number of orbitals in an energy level. The formula is given by 2n², where n is the principal quantum number.
In this case, n=10. So, we can calculate the number of orbitals using the formula:
Number of orbitals = 2n²
= 2 * (10²)
= 2 * 100
= 200
Therefore, there are 200 possible orbitals for the n=10 energy level.