When the momentum of a body decreases by 10 its kinetic energy increases by?

When the momentum of a body decreases by 10 its kinetic energy increases by?

\% increase in kinetic energy. Hence, we can see that if momentum of an object increases by 10\%, then the kinetic energy will increase by 21\%.

How much does kinetic energy increase if the momentum is increased by 20\%?

K.E.’ – K. E. = 1.44 K.E. – K. E. That means, for 20\% increase in Momentum, the Kinetic energy increases by 44\%.

How does the kinetic energy of a body change if its momentum?

Kinetic energy is directly proportional to the squared of the velocity. This means that when momentum is doubled, mass remaining constant, velocity is doubled, as a result now kinetic energy becomes four times greater than the original value.

READ:   Why is Arrow Season 4 so bad?

When the momentum of a body is increased by 100 its kinetic energy increased by?

When momentum of a body increases by 100\% then its kinetic energy will increase by 300\%.

When the momentum of a body is doubled the kinetic energy is?

When the momentum of a body is doubled, its kinetic energy increases by 300\%.

Is the increase in the kinetic energy of a body is 22 then the increase in the momentum will be?

Momentum is directly proportional to v, not v^2. So the momentum P will increase by the square root of the increase in KE. sqrt(22) = 4.69 Ans.

What is percentage increase in kinetic energy if linear momentum is increased by 0.01 \%?

0.02\%
= 2(0.01\%) = 0.02\%.

When the momentum of a body is doubled its kinetic energy increases by 300\%?

when the momentum is doubled, the kinetic energy goes up by a factor of 4 which represents a 300\% increase.

What happens to kinetic energy when momentum is decreased by 20\%?

If the momentum of a body is decreased by 20\% its kinetic energy is decreased by 36\%. When KE is still unaltered it is KE = 1/2mv^2. The decreased in its KE is 36\%.

READ:   Can I post an anonymous review on Facebook?

Can momentum be decreased by applying a force?

That depends on HOW you decrease momentum. Both total momentum and total energy are conserved properties. A force is a change of momentum with respect to time. Work is force times distance. So if you reduce momentum by applying a force over time, you also transfer away kinetic energy for the work.

What is the relationship between kinetic energy and velocity?

Since momentum change in a classical system is driven by velocity, a 25\% increase in momentum implies a 25\% increase in velocity (magnitude). Since kinetic energy is proportional to velocity squared the kinetic energy should increase by a factor of 1.25 squared.

What is the ratio of linear moment and kinetic energy?

The kinetic energies of two bodies of same masses are in the 1:4 The ratio of linear moment of these bodies is : Medium View solution A body is dropped from a certain height to the ground.