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momentum is described as mass times velocity.

p=mv.

Q: What is the equation you use to determine the momentum of an object?

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Momentum= Mass X Velocity

The momentum of an object is the product of its mass and its velocity. p = mv

The equation is force multiplied by accelaratin

Momentum of an object is defined as the product of the object's mass and its velocity.momentum (p), mass (m), velocity (v)p=m * vDefinition:Momentum-Measure of how hard it is to stop ans objectChange in time divided by change in speed, use the delta symbol for change (looks like a triangle).

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yes

Momentum= Mass X Velocity

The momentum of an object is the product of its mass and its velocity. p = mv

The equation is force multiplied by accelaratin

You can use a ruler to determine how long a object is

Momentum of an object is defined as the product of the object's mass and its velocity.momentum (p), mass (m), velocity (v)p=m * vDefinition:Momentum-Measure of how hard it is to stop ans objectChange in time divided by change in speed, use the delta symbol for change (looks like a triangle).

A way to designate momentum is using P. You can simply write Pi=Pf. If you have multiple particles, use P1i, P2i, etc.

Scientists use the relative amount of stable and unstable isotopes in an object to determine its age.

Just use the definition of momentum: multiply mass x velocity.

The momentum of a body is detemined by its mass and velocity. To find the non-directional momentum, multiply the mass in kilograms times the speed in meters per second to yield the momentum in newton-seconds (N-s).

More or less. Actually, a moving object has momentum - defined as mass times velocity. The word "impulse" is used for transfer of momentum, for example, in a collision. It has the same units as momentum, but the use of the word "impulse" seems inappropriate in this context.

Usually you would use some fact you know about the physical system, and then write an equation that states that the total angular momentum "before" = the total angular momentum "after" some event.