Yes, a boulder rolling down a hill has mass and velocity. Therefore, it has momentum because p = mv (momentum = mass x velocity).
Potential Energy
kinetic energy
Momentum is the product of mass x velocity. At zero velocity, momentum will also be zero.
a ball rolling across the floor ( a flat surface) you rolling down a hill rocks rolling down hill etc. hope this helped ronkkiki
A ball rolling down a hill.
Momentum is mass times velocity, and it is a vector, so it has a direction. This boulder has a momentum of 100*5=500 kgm/s in the direction of its motion.
Momentum is mass times velocity, and it is a vector, so it has a direction. This boulder has a momentum of 100*5=500 kgm/s in the direction of its motion.
Momentum is mass times velocity, and it is a vector, so it has a direction. This boulder has a momentum of 100*5=500 kgm/s in the direction of its motion.
Potential Energy
Momentum = mass * velocityTherefore the Volswagen rolling down the hill has greater momentum than the truck which is sationary.Volkswagen: momentum = mass * velocityTruck: momentum = mass * 0 = 0
kinetic energy
Momentum is the product of mass x velocity. At zero velocity, momentum will also be zero.
Momentum is speed or force of movement and it is defined as moving body. Momentum must have both mass and velocity. Examples of momentum include if a car and big truck are rolling down a hill, the truck will roll faster. A bullet has a lot of momentum with a small mass.
a ball rolling across the floor ( a flat surface) you rolling down a hill rocks rolling down hill etc. hope this helped ronkkiki
Children Rolling Down Hill - 1900 was released on: USA: September 1900
when you are skiing down a hill and you want to slow down
A ball rolling down a hill.