Class 11 Exam  >  Class 11 Notes  >  Spin Quantum Number - Structure of Atom, Class 11

Spin Quantum Number - Structure of Atom, Class 11 PDF Download

Spin Quantum Number

Let's think about an electron in an atom; first, imagine a spinning top. A top can spin clockwise or counter-clockwise. In the same way, an electron occupying an orbital behaves like a spinning top.

The spin quantum number, also known as the fourth quantum number, is a number value that describes the orientation of an electron occupying an orbital. The symbol that we will use for the spin quantum number is ms.


Spin Quantum Number Symbol


Let's visualize the spin quantum number. The value of ms= 1/2 is shown by an arrow pointing upwards and is also said to be spin up. The value of ms=-1/2 is shown by an arrow pointing downwards and is also said to be spin down.


Spin Quantum Number Values


How do electrons enter orbitals? This is important when determining the sign of ms. Electrons singly occupy orbitals first and then they pair up, as shown in the following illustration. Each box represents one orbital, and an orbital can only have a maximum number of two electrons. There are three 'p' orbitals, and on the left side, it is shown how the 'p' orbitals are filled. There are five 'd' orbitals, and on the right side, it is shown how 'd' orbitals are filled as the number of electrons increases.


Occupying Orbitals


As we can see, in one orbital, the orientation of the two electrons is always the opposite of each other. One electron will be spin up, and the other electron is spin down. If the last electron that enters is spin up, then ms = 1/2. If the last electron that enters is spin down, then the ms = -1/2.

Paramagnetism and Diamagnetism

The spin of an electron makes it behave like a small magnet, in that the spin determines the magnetic property of an atom. Electrons are very small particles and their movement is limited. However, this movement still creates a small magnetic field.

For example, in an atom, all the electrons are paired in the orbitals. The spins, since they have values with opposite signs ( 1/2 and -1/2), cancel each other out. We can therefore say that the atom is diamagnetic. Diamagnetic atoms have all of their electrons paired, and in each orbital, if you add their spins, the total will be zero, and they repel magnetic fields.


Diamagnetic


Now let's look at an atom that contains unpaired electrons in their orbitals. These unpaired electrons are alone in their orbitals. We can say therefore that these atoms with unpaired electrons are paramagnetic. Paramagnetic atoms have unpaired electrons, and they are attracted to a magnetic field. The electron in the orbital has a net spin, so the spins do not cancel each other out. In effect, the whole atom will have a net spin.

Paramagnetic
The document Spin Quantum Number - Structure of Atom, Class 11 is a part of Class 11 category.
All you need of Class 11 at this link: Class 11

Top Courses for Class 11

Download as PDF
Explore Courses for Class 11 exam

Top Courses for Class 11

Signup for Free!
Signup to see your scores go up within 7 days! Learn & Practice with 1000+ FREE Notes, Videos & Tests.
10M+ students study on EduRev
Related Searches

Summary

,

Class 11

,

Important questions

,

Semester Notes

,

Class 11

,

Class 11

,

shortcuts and tricks

,

practice quizzes

,

Spin Quantum Number - Structure of Atom

,

video lectures

,

Extra Questions

,

past year papers

,

mock tests for examination

,

Spin Quantum Number - Structure of Atom

,

MCQs

,

study material

,

Spin Quantum Number - Structure of Atom

,

Exam

,

ppt

,

Objective type Questions

,

Free

,

Previous Year Questions with Solutions

,

Viva Questions

,

pdf

,

Sample Paper

;