Request OTP. Share This Video Whatsapp. Text Solution. Solution :. Related Answer. Very Important Questions. Latest Questions. Class 11th Structure Of Atom. National Education Day: e-learning Transforming Educational Landscape National education day: e-learning transforming educational landscape. There is one orbital in the 3 s subshell and three orbitals in the 3 p subshell. The five different orientations of orbitals in the 3 d subshell are shown in the figure below.
One of these orbitals lies in the XY plane of an XYZ coordinate system and is called the 3 d xy orbital. The 3 d xz and 3 d yz orbitals have the same shape, but they lie between the axes of the coordinate system in the XZ and YZ planes. The fourth orbital in this subshell lies along the X and Y axes and is called the 3 d x 2 - y 2 orbital.
Most of the space occupied by the fifth orbital lies along the Z axis and this orbital is called the 3 d z 2 orbital. Before we can use these orbitals we need to know the number of electrons that can occupy an orbital and how they can be distinguished from one another. Experimental evidence suggests that an orbital can hold no more than two electrons. To distinguish between the two electrons in an orbital, we need a fourth quantum number. This is called the spin quantum number s because electrons behave as if they were spinning in either a clockwise or counterclockwise fashion.
Thus, it takes three quantum numbers to define an orbital but four quantum numbers to identify one of the electrons that can occupy the orbital. The allowed combinations of n , l , and m quantum numbers for the first four shells are given in the table below.
For each of these orbitals, there are two allowed values of the spin quantum number, s. Summary of Allowed Combinations of Quantum Numbers. Because of the force of attraction between objects of opposite charge, the most important factor influencing the energy of an orbital is its size and therefore the value of the principal quantum number, n. For an atom that contains only one electron, there is no difference between the energies of the different subshells within a shell.
The 3 s , 3 p , and 3 d orbitals, for example, have the same energy in a hydrogen atom. The Bohr model, which specified the energies of orbits in terms of nothing more than the distance between the electron and the nucleus, therefore works for this atom. The hydrogen atom is unusual, however. As soon as an atom contains more than one electron, the different subshells no longer have the same energy. Within a given shell, the s orbitals always have the lowest energy. The energy of the subshells gradually becomes larger as the value of the angular quantum number becomes larger.
As a result, two factors control the energy of an orbital for most atoms: the size of the orbital and its shape, as shown in the figure below. A very simple device can be constructed to estimate the relative energies of atomic orbitals. The allowed combinations of the n and l quantum numbers are organized in a table, as shown in the figure below and arrows are drawn at 45 degree angles pointing toward the bottom left corner of the table. The order of increasing energy of the orbitals is then read off by following these arrows, starting at the top of the first line and then proceeding on to the second, third, fourth lines, and so on.
This diagram predicts the following order of increasing energy for atomic orbitals. The electron configuration of an atom describes the orbitals occupied by electrons on the atom. The basis of this prediction is a rule known as the aufbau principle , which assumes that electrons are added to an atom, one at a time, starting with the lowest energy orbital, until all of the electrons have been placed in an appropriate orbital.
This is indicated by writing a superscript "1" after the symbol for the orbital. The next element has two electrons and the second electron fills the 1 s orbital because there are only two possible values for the spin quantum number used to distinguish between the electrons in an orbital.
After the 1 s and 2 s orbitals have been filled, the next lowest energy orbitals are the three 2 p orbitals. The fifth electron therefore goes into one of these orbitals. However, there are three orbitals in the 2 p subshell. Does the second electron go into the same orbital as the first, or does it go into one of the other orbitals in this subshell?
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