It is unclear what you mean. If you mean that you want to find momentum but do not have a value for velocity then it depends on what physical system you are using. If you want to find the momentum of an object with a velocity equal to zero then the momentum is zero.
Answer2.
You can find the momentum from its the integral of its force impulse fdt = d(mv). The momentum is mv= integral of fdt.
Momentum is mass x velocity; velocity has a direction, therefore momentum has a direction.Momentum is mass x velocity; velocity has a direction, therefore momentum has a direction.Momentum is mass x velocity; velocity has a direction, therefore momentum has a direction.Momentum is mass x velocity; velocity has a direction, therefore momentum has a direction.
if velocity increases, so does momentum. and vice versa momentum = mass x velocity increasing mass or velocity or both will increase momentum
ACC TO FORMULAE p=mv2 WHERE p=MOMENTUM, m=MASS, v=VELOCITY IF MASS REMAIN CONSTANT , THEN CHANGE IN MOMENTUM IS DUE TO CHANGE IN VELOCITY. THEREFORE MOMENTUM IS DIRECTLY PROPOTIONAL TO VELOCITY.
No, momentum is directly proportional to velocity, and in the same direction..
As the velocity decreases, the momentum increases. Mass is the matter inside of something and momentum is how hard it is to stop something. Therefore momentum needs mass to function because without mass there would be no momentum. So think of the sentence above like this: velocity ( a measure of momentum) decreases, the momentum (including mass inside an object) goes up therefore making the mass increase while the velocity decreases.
momentum = mass x velocity => mass = momentum / velocity
You can find the mass by dividing the momentum by the velocity. The formula for momentum is mass multiplied by velocity, so by rearranging the formula you can solve for mass by dividing momentum by velocity.
Momentum is the product of an object's mass and its velocity. The formula for momentum is: momentum (p) = mass (m) * velocity (v).
Momentum is the product of Mass times Velocity Momentum = MV
You can find mass using momentum and velocity by rearranging the equation for momentum (p = mv) to solve for mass (m = p/v). Simply divide the momentum by the velocity to get the mass.
An object at rest has no momentum because momentum is a product of mass and velocity. If an object is not moving (velocity is zero), then its momentum will also be zero.
First you have to convert weight into mass. This is dependent on the acceleration the mass is experiencing (either gravitational or centrifugal). If it is gravitational and it is at or near the surface of the Earth then mass=weight/9.81m/s2 If it is centrifugal then a=v2/r and mass=weight*r/v2 Then to find momentum just multiply mass by velocity.
The momentum of a 70kg runner can be calculated by multiplying the mass of the runner (70kg) by the velocity of the runner. Without the velocity, we cannot determine the momentum.
To determine momentum, you need to know the object's mass and velocity. Momentum is calculated by multiplying the object's mass by its velocity. The formula for momentum is: Momentum = mass x velocity.
Momentum divided by velocity is equal to mass. This can be mathematically represented as Momentum/Velocity = mass.
You can determine mass using momentum and velocity by using the formula: momentum = mass x velocity. Rearrange the formula to solve for mass as mass = momentum/velocity. Plug in the values for momentum and velocity to calculate the mass.
To find the velocity after impact of a body with a fixed plane, you can use the principle of conservation of momentum. This principle states that the total momentum before the impact is equal to the total momentum after the impact. By setting up the momentum equation before and after the impact, you can solve for the velocity after impact.