# Linear Momentum Formula

## Linear Momentum Formula

Physics is the natural science that investigates matter, its fundamental elements, motion and behaviour in space and time, as well as the associated phenomena of energy and force. Physics is one of the most fundamental scientific fields, with the primary purpose of understanding how the universe functions. A physicist is a scientist who specialises in the discipline of physics.

The Linear Momentum Formula is a vector quantity defined as the product of an object’s mass, m, and velocity, v. The letter ‘p’ is used to denote it, and momentum is used for short. Please remember that the momentum of a body is a conserved quantity, which indicates that a system’s overall momentum is constant. Linear momentum is measured in kilograms per second.

The Linear Momentum Formula is    P = m v

Where,

m = mass

v = velocity

### Linear Momentum Formula

Any moving item always has the momentum to propel it forward. A moving body’s momentum is an essential attribute. However, this momentum is always determined by the body’s mass and velocity. This inquiry will be addressed in this forum. Here are some instances of the Linear Momentum Formula. Because of simple linear motion, linear momentum is quite prevalent.

What is Linear Momentum?

If people are standing at the bottom of a hill and have the option of stopping a bike or a bicycle, they will most likely select the bicycle. The rationale is that the bike has more momentum than the bicycle. In this context, momentum merely refers to the mass of a moving body.

Because of its immense size, the bike has a lot of momentum. It also has higher speed, which impacts the momentum. The bicycle will have momentum owing to its speed, but it will have less momentum due to its lower mass.

### The formula for Linear Momentum:

Linear momentum is described as the product of an object’s mass (m) and its velocity (v). This relationship may be expressed mathematically. It is written as follows:

The Linear Momentum Formula =mass of the body×its velocity

It is important to note that momentum always moves in the same direction as the velocity. It is a conserved quantity, which means that the sum total of a system’s momentum will always be constant. It is the momentum conservation law.

### Linear Momentum of a System of Particles:

The product of an object’s mass (m) and velocity (v) is defined as linear momentum (v). When an item has more momentum, it is more difficult to stop it. P = mv is the Linear Momentum Formula. The overall quantity of momentum never changes, and this phenomenon is known as momentum conservation. Let us learn more about linear momentum and momentum conservation.

### Law of Conservation of Linear momentum:

The Linear Momentum Formula of a particle is defined as the product of the particle’s mass times its velocity. A particle’s conservation of momentum is a quality displayed by every particle in which the total quantity of momentum never changes. A particle’s linear momentum is a vector quantity.

### Solved Examples

Students who excel in Physics do better in competitive tests. Formulas for physics are created and tested. The Extramarks team’s primary purpose is to provide a robust conceptual foundation. Physics is one of those sciences that need the use of several equations. A solid grasp of the Linear Momentum Formula can help students assess their own strengths and weaknesses. Exam preparation can benefit from the Linear Momentum Formula. Saving formulae might be difficult at times. Preparation with sufficient study materials is usually advantageous. These Extramarks solved examples were carefully selected to assist students in learning and understanding the Linear Momentum Formula. Students may learn more and get the most out of their experience because the language is basic enough. Extramarks examples may assist students in improving their study habits and achieving their goals. The Linear Momentum Formula is essential for providing answers. Students should practise answering Linear Momentum Formula questions. Extramarks allow one to completely practise each of them. Extramarks offers a collection of solved sample problems to help students in their studies. Students can use the Linear Momentum Formula to develop their problem-solving skills and adapt to obstacles in competitive tests.