Momentum
Momentum is defined as mass times velocity, and it requires units of mass times units of velocity. The SI unit is kilograms x meters / second. There is no special name for this combination of units. Impulse (force times time) has the same units.
You need to know their mass. p=mv momentum=Mass times Velocity
molar mass divided by atomic mass times 6.02 x 1023 =)
the amount of matter that an object contain the more mass an object has the greater its weight
When you drop an object it accelerates. The faster it goes the more the air resistance to its motion; this increases proportionally to the square of the speed. Eventually the air resistance becomes as much as the weight of the object. At this point the object stops accelerating. It has reached its terminal velocity. So, if you drop an object from a great height, it will hit the ground at its terminal velocity. What that is depends on the size, shape and mass of the object. For a human being terminal velocity is around 120 mph - almost always lethal. If you drop a mouse from a third floor window the mouse will usually just walk away. Drop a spider from the top of the empire state building and the spider will hardly notice the landing.
The mass of a object in kilograms times its velocity is its momentum.
Mass times velocity is momentum.
That is true because momentum is mass times velocity
Momentum.
The product of mass and velocity of an object is its momentum.
Mass of the object times the velocity o the object.
The product of an object's mass and velocity is the object's momentum.
The product of an object's mass and velocity is the object's momentum.
Momentum is the product of mass times velocity. With less velocity, there will be less momentum. (An object's mass will usually not change.)
The product is the object's momentum.
The momentum of a body is detemined by its mass and velocity. To find the non-directional momentum, multiply the mass in kilograms times the speed in meters per second to yield the momentum in newton-seconds (N-s).
An object's mass and its velocity define the object's MOMENTUM.