a moving objects momentum
An object at rest. Actually that's the only possible example for a single object. For two objects, you can have objects moving in opposite directions; for example, one may have a momentum of +100 units, and the other, a momentum of -100 units.
Objects move if they have momentum. Momentum is gained via an applied force. Therefore objects start or stop moving when a net force is working on them.
That's the object's linear momentum.
Any moving object with mass has momentum, since p = mv, where p is momentum, m is mass, and v is velocity.
a moving objects momentum
All moving objects have Momentum.
An object at rest. Actually that's the only possible example for a single object. For two objects, you can have objects moving in opposite directions; for example, one may have a momentum of +100 units, and the other, a momentum of -100 units.
Objects move if they have momentum. Momentum is gained via an applied force. Therefore objects start or stop moving when a net force is working on them.
concervation of momentum concervation of momentum 2nd Answer: Well, not really, no. Friction causes moving objects to slow.
That's the object's linear momentum.
Momentum depends on mass and velocity.
Momentum
When no momentum is exchanged with other objects/systems.When no momentum is exchanged with other objects/systems.When no momentum is exchanged with other objects/systems.When no momentum is exchanged with other objects/systems.
Any moving object with mass has momentum, since p = mv, where p is momentum, m is mass, and v is velocity.
The property you are looking for is the objects momentum. Momentum = Mass * Velocity.
The momentum can be cancelled when the objects are equal and opposite in momentum, 0= p1 + p2, thus p1=- p2. Newton's 3rd law.