Mass * Velocity, mv, is the formula for momentum.
Extended:
This article goes over how E=mv was derived, and experimental evidence led to
E=mv^2
While E=mv^2 does match the data, there is no intuition for why the first
equation is wrong...this article gives some ideas and may peak someones
interest
It is a line graph in which the horizontal axis represents time and the vertical graph represents the velocity of an object in a specific direction. The direction is usually radial: away from (positive) or towards (negative) from a fixed point of reference. No account is taken of motion in a transverse direction.
The integral of the velocity is the distance.
Distance in the same direction as the velocity is measured.
That's a graph in which one of the axes contains time, and another, the velocity. Usually that would show how velocity changes over time.
The mass of a object in kilograms times its velocity is its momentum.
The product of mass and velocity of an object is its momentum.
Force equals the mass times the rate of change of the velocity.
Kinetic energy is equal to one half the mass times the square of the velocity. Thus, changes in velocity and mass do not have the same effect on kinetic energy. If you increase the mass by a factor of 10 at the same velocity, you increase the kinetic energy by a factor of 10. However, if you increase the velocity by a factor of 10 at the same mass, you increase the kinetic energy by a factor of 100.
Angular momentum is an expression of an objects mass and rotational speed. Momentem is the velocity of an object times its mass, or how fast something is moving times how much it weighs. Therefore angular momentum is the objects mass times the angular velocity where angular velocity is how fast something is rotating expressed in terms like revolutions per minute or radians per second or degrees per second.
The mass of a object in kilograms times its velocity is its momentum.
Mass times velocity is momentum.
Momentum = (mass) times (velocity)mass = (Momentum) divided by (velocity)
That is true because momentum is mass times velocity
The product of mass and velocity of an object is its momentum.
Force equals the mass times the rate of change of the velocity.
Momentum is the product of mass times velocity. With less velocity, there will be less momentum. (An object's mass will usually not change.)
Momentum.
Momentum
mass times the velocity of the body.
It could be the product of (mass) times (velocity).
It would be: Momentum = (mass) times (velocity)