The universal gravitation equation can be given as follows: However, this attraction force largely depends on the mass of the object e.g. Newton’s universal law of gravitation expresses that every object with a mass is pulling on every other object in the entire universe. We call it an attractive force because it always causes the two masses to pull together and never pushes them apart.
We can define the gravitational force as a force that attracts any two objects having a particular mass. However, it is the dominant interaction force at the macroscopic level, which causes the formation, shape and trajectory of astronomical bodies.
Therefore, gravitational force does not have considerable influence at the level of subatomic particles. Gravitational force is the weakest force among the four fundamental interactions of physics (the other three forces are strong interaction, electromagnetic force, and weak interaction). Gravity or gravitation is a natural process where all things with a mass or energy for example, planets, stars, galaxies, and light. Gravitational force is the force that acts on an object due to gravity. Side by Side Comparison – Gravitational Force vs Magnetic Force in Tabular Form
There are several differences between these two types of forces. The key difference between gravitational force and magnetic force is that gravitational force acts on all the things that have a mass whereas magnetic force acts on things having iron or an electric charge on them.īoth gravitational force and magnetic force describe the attraction between two things due to different reasons.
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