p = mv
where p is momentum , m is mass and v is velocity
Momentum = mass x speed so speed = momentum/mass or V=P/m
When the mass of a moving object is doubled and its speed remains the same, its momentum also doubles. Momentum is directly proportional to mass, so doubling the mass will result in a doubling of the momentum regardless of the speed.
Mass and speed are related in the concept of momentum, which is the product of an object's mass and velocity. Specifically, momentum is equal to mass multiplied by velocity. Therefore, as either mass or speed increases, momentum will also increase.
Speed and momentum are related because momentum is the product of an object's mass and its velocity. In other words, momentum is directly proportional to an object's speed. This means that as an object's speed increases, its momentum also increases.
To find velocity with mass and momentum, you can use the formula: velocity momentum / mass. Simply divide the momentum by the mass to calculate the velocity.
Momentum = mass x speed so speed = momentum/mass or V=P/m
momentum = mass x velocity => mass = momentum / velocity
When the mass of a moving object is doubled and its speed remains the same, its momentum also doubles. Momentum is directly proportional to mass, so doubling the mass will result in a doubling of the momentum regardless of the speed.
Mass and speed are related in the concept of momentum, which is the product of an object's mass and velocity. Specifically, momentum is equal to mass multiplied by velocity. Therefore, as either mass or speed increases, momentum will also increase.
Speed and momentum are related because momentum is the product of an object's mass and its velocity. In other words, momentum is directly proportional to an object's speed. This means that as an object's speed increases, its momentum also increases.
To find velocity with mass and momentum, you can use the formula: velocity momentum / mass. Simply divide the momentum by the mass to calculate the velocity.
Momentum. Distance divided by time is speed. Mass times speed is momentum.
Angular momentum depends on the mass of an object and its rotational speed. The greater the mass or speed, the greater the angular momentum.
NO .Momentum has some potential to do work where as speed is only the rate of action or travel. For example if a car is switched off while speeeding itwill still continue to run for some time due to momentum. Speed by itself has no energy for doing work Momentum is in fact defined as mass x velocity, and will be conserved in an elastic collision.
The momentum of an object is determined by its mass and speed. Momentum is the product of an object's mass and its velocity, and it is a vector quantity indicating the direction of the object's motion. A larger mass or higher speed will result in a greater momentum.
No, doubling the speed will quadruple the momentum. Momentum is dependent on both speed and mass; hence, if the speed is doubled, the momentum will increase by a factor of four.
To find velocity when given mass and momentum, you can use the formula: velocity momentum / mass. Simply divide the momentum by the mass to calculate the velocity.