Q&A

What is the relation between mass momentum and kinetic energy?

What is the relation between mass momentum and kinetic energy?

Relationship Between Kinetic Energy and Momentum. The relationship between kinetic energy and momentum is given by the equation T=p2/2m, where T is kinetic energy, p is momentum and m is mass. This relationship comes directly from the definitions of momentum (p=mv) and kinetic energy (T=½mv2).

What is the nature of the graph between kinetic energy and momentum?

a straight line . because the momentum and kinetic energy acts along the straight path .

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What is the shape of graph between speed and kinetic energy of a body?

As kinetic energy ∝v2, therefore graph between speed and kinetic energy must be parabolic.

Which graph represents relation between momentum and mass of velocity is fixed?

As from Newton’s lInd law, rate of change of momentum is equal to force applied. So, Hence, force applied on an produces acceleration, (i)Momentum versus velocity when mass is fixed, If m is fixed, then Momentum versus velocity graph will be a straight line passing through the origin (if v = 0, then p = 0).

Where is kinetic energy on a graph?

Between any two points on the horizontal axis, the area under the curve represents the number of molecules that have kinetic energies in that range. For example, the shaded area between A and B represents the number of molecules that have kinetic energies between A and B.

What is the shape of graph between kinetic friction and applied force?

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If a graph is plotted between applied force and frictional force, then it is in the form of a straight …

What is the slope of kinetic energy?

The kinetic energies are different, and the block on slope 1 has greater kinetic energy. Slope 1 is steeper, so the block gets to the bottom faster. Therefore it has a greater kinetic energy at the bottom. The kinetic energies are different, and the block on slope 2 has greater kinetic energy.

What is the mathematical relation between kinetic energy and momentum?

The mathematical relation between kinetic energy and momentum is, twice of Kinetic energy is equal to the product of momentum and velocity. that is given by, K.E = 1/2 mv2 K.E = 1/2 Pv 2K.E = Pv. According to this relation if kinetic energy increases, momentum also increases. on the other hand if kinetic energy decreases momentum also decreases.

What is the unit of momentum in physics?

Hence the unit of momentum is Kg.m/s. The relationship between kinetic energy and momentum is, kinetic energy depends on its mass and velocity. In the same way momentum also depends on mass and velocity. therefore, heavy bodies moving with high velocities have more kinetic energy and momentum than slow moving bodies of small mass.

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What happens to kinetic energy when mass is double?

On the same way momentum also directly proportional to its mass and velocity. therefore, if the mass of the body is double, its kinetic energy and momentum also get double and vice-versa. Please note that doubling the velocity has greater effect on the kinetic energy of the body than doubling its mass.

What is the equation for kinetic energy?

Ans. The numerical formula is KE = 0.5 * mv2. In the equation, m is an object’s mass and v counts velocity or rate at which the substance changes its place. 3. How Kinetic Energy Differs from Momentum?

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