Difference between the Conservative Force and Non-conservative Force
The detailed difference between conservative and non-conservative force is tabulated below:
Property |
Conservative Force |
Non-conservative Force |
---|---|---|
Dependency on Path |
Independent on path travelled. |
Dependent on path travelled. |
Law of Conservation of Energy |
It follows the law. |
It does not follow the law. |
Work Done |
In closed path, work done is zero in case of Conservative force. |
Work done is not zero in case of Non-conservative force. |
Recoverable of Word done |
It is recoverable. |
It is not recoverable. |
Mechanical Energy |
Mechanical energy is conserved in case of Conservative force. |
It may or may not be conserved in case of Non-conservative force. |
Examples |
magnetic force and gravitational force |
Friction. |
Conservative Forces – Definition, Formula, Examples
Conservative Force is a type of force which is independent of path taken to do a work. This means when an when force applied in moving an object from one position to another is the same irrespective of the path taken, it is called conservative force. A force is a push or pull acting on an object. In our surroundings, several forces exist. Conservative forces include magnetic force, gravitational force, etc.
In this article, we will learn in detail about conservative force, its definition, formula, and examples. We will also compare conservative and non-conservative forces.
Table of Content
- What is a Conservative Force?
- Work Done by a Conservative Force
- Conservative Force Formula
- Conservative and Non-Conservative Forces
- Difference between the Conservative Force and Non-conservative Force