The more the mass, the more momentum you will need for an object to speed up more, or accelerate.
An object's momentum is the product of its mass and its velocity (where velocity is in meters per second and mass is in kilograms).
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.
I guess that momentum is part of the inertia, inertia is composed of momentum as the pages are related to the book. Inertia will be different if it has different kind of momentum. Force will affect momentum so inertia will change.
Describe the relationship between mass and weight.
Yes, mass will affect momentum in a collision or in anything else. Any object with mass and non-zero velocity will have momentum. Mass is directly proportional to momentum. Double the mass of an object moving with a given velocity and the momentum doubles.
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.
Mass is directly proportional to momentum since momentum is the product of mass and velocity.
Momentum = mass x velocity.
Momentum=mass*velocity
Momentum=mass*velocity
Momentum is the product of mass and velocity
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.
According to Newton's second law, the rate of change of momentum of an object is directly proportional to the net force that is acting on that object.
An important relationship between impulse and momentum derived from Newton's second law, which shows that the impulse of force is equal to the change in momentum that it produces.Scientifically speaking there is a relationship between those two because they both aren't moving at all.
The relationship is expressed by Newton's Second Law: F=ma (force = mass x acceleration).
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Momentum (p) is equal to mass (m) times velocity (v), so p = mv
well the relationship between mass and force is..........*relationship... Force=mass x acceleration