Oh, dude, momentum is just mass times velocity, so for our speedy pup here, it's 12 kg times 8 m/s, which gives us 96 kg m/s. So, like, this dog has a momentum of 96 kilogram meters per second. Cool, right?
p (momentum) = m x v p = 57kg x 27 m/s p = 1539 kgxm/s The momentum of this cheetah is 1539 kg x mg/s
12 kg dog on Earth: 117.6 N 12 kg dog on Mars: 44.52 N (~72% less)
If both balls are moving at the same speed (velocity), the heavier (more massive) will have the greater momentum. Momentum is the product of mass and velocity. With identical velocities, the more massive object will have the greater momentum. If a 34 kg ball and a 35 kg ball are both moving at 8 m/s as asked, then the 34 kg ball will have less momentum than the 35 kg ball.
Momentum =mv. The lioness has a momentum of 180 x 16 = 2880 kg m per s to the right.
momentum is the product of the velocity and mass: 250,000 kg m/s
The momentum of the dog can be calculated using the formula: momentum = mass × velocity. So, momentum = 12 kg × 8 m/s = 96 kg m/s.
The momentum of the dog can be calculated as the product of its mass (20 kg) and velocity (8 m/s). Therefore, the momentum of the dog is 160 kg*m/s.
mass*speed squared= momentum 20 kg*8 squared or 64= 1,280 kg-m/s
The momentum of the dog can be calculated by multiplying its mass (10.0 kg) by its velocity (6.0 m/s), resulting in a momentum of 60.0 kg*m/s north.
The momentum of the ostrich can be calculated using the formula: momentum = mass x velocity. Plugging in the values: momentum = 120 kg x 15 m/s = 1800 kg*m/s.
The momentum of an object is calculated by multiplying its mass by its velocity. In this case, the momentum of the dog can be calculated as 30 kg * 2 m/s = 60 kgm/s. So, the magnitude of the dog's momentum is 60 kgm/s.
Momentum = mass x velocity. Momentum = (90 kg) x (3 m/s) Momentum = 270 kgm/s
momentum change = 670.56 kilogram-meter/second
The formula is...momentum=velocity x massSo...momentum= 4m/s x 100kgmomentum= 400 kg m/s
The momentum of an object is determined by its mass and velocity. In this case, the cheetah with a mass of 74 kg and a speed of 31 m/s would have a greater momentum than the elephant with a mass of 7000 kg running at 18 km/hr. This is because momentum is proportional to both mass and velocity, and the cheetah has a higher speed despite having much less mass.
Momentum is mass times velocity. The total mass here is 279 kg 279 * 12 = 3348. 3348 newton-seconds/kilogram-meters per second is the momentum.
Momentum (p) equals mass times velocity, or p=mv, and I assume that when the question says "moving at 64 km" it is referring to the cars velocity. The car will have a momentum of 32000 kg*km/s. The cart will have a momentum of 3000 kg*km/s. The truck will have a momentum of 32000 kg*km/s. The car and the truck both have a greater momentum than the cart.