Question

graph of momentum versus mass when velocity is constant

Answer 1

The graph of momentum v/s mass is a straight line parallel to the x-axis when the velocity is constant.

• We know that the momentum of a particle can be defined as the product of the mass and velocity of the particle.
• It can be represented by the equation,

       M = m × v

        where M = momentum of the given particle

                     m = mass of the given particle

              and v = velocity of the given particle

• So, we can clearly see that the momentum of the particle will remain constant as the mas of the object is already fixed and also the velocity is also not changing.

So we can conclude that the graph will be a straight line parallel to the x-axis.

Answer 2

1. The magnitude of motion held by a moving body is referred to as the body's momentum.

2. The product of an object of mass $m$ travelling at a velocity $v$ is its momentum.

3.  $p=m\times v$ is the symbol for it.

4. It has an Sl unit of $kgms^{-1}$.

5. The rate of change of momentum is equal to the force exerted, according to Newton's law.

6. As a result, applying force to anything causes it to accelerate.

7.  If the velocity for various masses is constant, the momentum against the mass graph will be a straight line going through the origin (if $m=0$, then $p=0$).