Question
Question: What are the differences between the Gravitational force and the Force of Gravity?...
What are the differences between the Gravitational force and the Force of Gravity?
Explanation
Solution
Gravitation is the attracting force that exists between any two mass objects. The gravitational force attracts items together. The gravitational force that exists between the earth and other bodies is known as gravity. The force that pulls items toward the ground is known as gravity.
Complete step by step solution:
| Parameter | Gravitation Force | Force of Gravity |
|---|---|---|
| · Definition | · Newton's Law of Universal Gravitation states that every particle in the cosmos attracts every other particle with a force that is directly proportional to the product of their masses and inversely proportional to the square of their distance. | · The term gravity is usually applied to an object, such as the earth's gravity, the moon's gravity, Mars' gravity, the Sun's gravity, and so on. |
| · Nature | · It could be an attractive or repulsive force, depending on the nature of the force. | · It's always a sort of enticing energy. |
| · Universal Nature | · The universal force is what it is referred to as. everything in the universe, no matter how little or large, exerts a force on all other objects. | · It isn't thought of as a universal force. |
| · Direction | · The gravitational force is directed away from the masses in a radial direction. | · This force is directed along the line connecting the earth's centre and the body's centre. It is continually striving to reach the earth's core |
| · Mass requirement | · It necessitates the use of items with two masses. | · It simply need one mass. |
| · Effect of zero force | · When the distance between the bodies is infinity, the force will be zero. | · At the earth's centre, the gravitational force will be zero. |
| · Physical Quantity | · This force is a physical quantity with a vector. | · The gravitational force has its own vector field. |
| · Example | · The earth's revolution around the sun. | · Water from rivers, for example, flows downward due to gravity. Gravity causes waterfalls to form. |
Note:
All bodies on Earth are subjected to a downward pull of gravity caused by the Earth's mass. The acceleration of freely falling objects is used to calculate the Earth's gravity. The acceleration of gravity at the Earth's surface is 9.8m/s2 . As a result, an object's speed rises by around 9.8 metres per second for every second it is in free fall.