impulse
If momentum equaled motion then people wouldn't need impulse.
Impulse is force applied over a period of time, and impulse does equal momentum over a period of time.
Check the syntax of the question, as it makes no sense as stated, but appears to refer to acceleration.
When a force F acting on a body moves a body through distance d then work W is done W =Fd (expressed in joule)
Work.
motion
Inertia
Impulse
energy
impulse
The moment of linear momentum is called angular momentum. or The vector product of position vector and linear momentum is called angular momentum.
conservation of momentum
this is called law of conservation of momentum
The product of an object's mass and velocity is called it's momentum. It is mostly called it's linear momentum to differentiate from the term angular momentum.
impulse
impulse
That is called impulse; the equation is Ft = mv
Force applied over a period of time has the dimensions of momentum, and is referred to as "impulse".
Force applied over a period of time has the dimensions of momentum, and is referred to as "impulse".
Force applied over a period of time has the dimensions of momentum, and is referred to as "impulse".
The only difference between a shock load and a gradually applied load is something called an impulse; defined as the integral of a force with respect to time. When a force is applied to a rigid body it changes the momentum of that body. A small force applied for a long time can produce the same momentum change as a large force applied briefly, because it is the product of the force and the time for which it is applied that is important.
The moment of linear momentum is called angular momentum. or The vector product of position vector and linear momentum is called angular momentum.
conservation of momentum
Momentum is calculated by taking the product of mass times velocity. Thus, a moving tennis ball would have a nonzero momentum. However, since a tennis ball has a relatively small mass, it would need to have a high velocity in order to have a large value for its momentum. Since velocity is a vector (having both a magnitude and a direction), momentum is also a vector. When a tennis player hits a tennis ball with his racket, he imparts a force onto the tennis ball, which changes the direction of its momentum to return it over the net. (The value for this change in momentum is called impulse, which is equal to the product of the force applied and the time for which it is applied.)
this is called law of conservation of momentum
stationary clot is called a thrombus or a blood clot.