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
If the mass is doubled,speed should be halved to conserve momentum.
Very, very basically, momentum is a combination of speed and mass of the object.
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.
Momentum alone cannot find the mass of an object as momentum is given by p = mv. To find mass m = p/v , velocity is also required.
Momentum = mass x speed so speed = momentum/mass or V=P/m
momentum = mass x velocity => mass = momentum / velocity
Momentum. Distance divided by time is speed. Mass times speed is momentum.
If the mass is doubled,speed should be halved to conserve momentum.
Very, very basically, momentum is a combination of speed and mass of the object.
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.
Momentum is mass times velocity. What is the mass of someone?
Momentum = (mass) multiplied by (speed)
The electron, because it has much less mass than the proton and momentum is the product of mass and speed.
mass x velocity = momentum. (velocity = speed with a direction)
That would depend on what you consider "large".The size of an object's momentum = (its mass) x (its speed).So, more mass and more speed result in more momentum.
Momentum alone cannot find the mass of an object as momentum is given by p = mv. To find mass m = p/v , velocity is also required.