Second orbital is ......... Away from nucleus present Ina subshell that is represented by azimuthal quantum number = 3 will be

To understand the location of the second orbital with an azimuthal quantum number (l) of 3, we need to consider the quantum numbers that define the electron's state within an atom.

The azimuthal quantum number (l) determines the shape of the orbital and can have values ranging from 0 to (n-1), where n is the principal quantum number. The principal quantum number (n), on the other hand, determines the energy level or shell in which the orbital is found.

Since the question states that it is the "second orbital," we can conclude that it belongs to the second energy level (n=2). Now, let's look at the possible values of l for n=2.

For n=2, the possible values of l can range from 0 to (n-1) = 1. These correspond to the s and p subshells. Therefore, there are two possible orbitals in the second energy level: 2s and 2p.

The s orbital (l=0) is spherical in shape and lies at the center of the atom. Meanwhile, the p orbital (l=1) is dumbbell-shaped and has three mutually perpendicular orientations (px, py, and pz).

However, the question mentions that the orbital has an azimuthal quantum number (l) of 3. This suggests that an l value of 3 is not within the range of possible values for n=2 (l can only be 0 or 1). Therefore, there is no second orbital with an azimuthal quantum number of 3 in the second energy level (n=2) of an atom.

In summary, there is no second orbital in the second energy level (n=2) of an atom with an azimuthal quantum number (l) equal to 3.