Momentum = (mass) x (speed)
(1 x 2) = (2 x 1).
Their momenta are equal.
The momentum is given by the formula... p=mv p=momentum m=mass v=velocity In your question your mass is 30kg and your velocity is 10m/s just do simple math and your momentum is 300kg*m/s
We have to assume that both bodies are initially moving along the same straight line in opposite directions, so the collision is "head on". We also have to assume that the collision is "elastic", meaning that none of the original kinetic energy is lost to heat. The final momentum is 20 Kg-m/s in the direction opposite to the original 80 kg-m/s motion.
In
15 meters north. the object is only moving away from the original starting place. its not like its moving away and then back again.
Momentum = (mass) x (speed)Immediately, we could say the momentum is 0.25 kilogram-mile per second. That'sa perfectly good and technically correct answer, but it would be a lot neater if weconvert it into a consistent system of units ... either English or metric. If we choosemetric, then we have to convert miles-per-second into meters-per-second. No problem.1 mile = 1,609.344 meters.Momentum = (0.5 kg) x (0.5 mile/sec) x (1,609.344 meter/mile) = 402.3 kg-m/sec (rounded)That may sound like a big number, but let's not forget ... our 1.1-pound ball has beenpitched at 1,800 mph !
The momentum of a moving object is determined by its mass and velocity. The greater the mass and the faster the velocity of the object, the greater its momentum. Momentum is a vector quantity, meaning it has both magnitude and direction.
skateboard
A fast-moving car has more momentum than a slow-moving car because momentum is directly proportional to an object's velocity. The momentum of an object is the product of its mass and velocity, so the faster the object is moving, the greater its momentum.
Speed directly affects momentum. Momentum is the product of an object's mass and its velocity, so the faster an object is moving, the higher its momentum will be. This means that an object moving at a higher speed will have greater momentum compared to the same object moving at a lower speed.
Momentum is the property of a moving object that is determined by its mass and velocity. It is a vector quantity, meaning it has both magnitude and direction. The greater the mass or velocity of an object, the greater its momentum.
The momentum of the 20 kg body moving at 5 m/s is greater since momentum is calculated by multiplying mass and velocity. In this case, momentum = mass x velocity. Thus, 20 kg x 5 m/s = 100 kg m/s, which is greater than the momentum of the 10 kg body moving at 10 m/s (10 kg x 10 m/s = 100 kg m/s).
The SUV would have the greater momentum because momentum is the product of an object's mass and velocity. Since an SUV typically has greater mass than a compact car, it would have greater momentum at the same velocity.
The momentum of an object is calculated by multiplying its mass by its velocity. Therefore, the momentum of the 500 kg car moving at 64 km/h is greater than the momentum of the 250 kg cart moving at 12 km/h or the 1000 kg truck moving at 32 km/h.
A moving skateboard has greater momentum than a heavy truck at rest. Momentum is determined by both the mass and velocity of an object, so even though the truck may have more mass, the skateboard's velocity contributes more to its momentum.
The real car has more mass than the toy car, which contributes to its higher momentum despite moving at the same speed. Momentum is defined as the product of an object's mass and its velocity, so the real car's greater mass results in greater momentum.
The SUV would have greater momentum because momentum is calculated by multiplying mass and velocity, and SUVs typically have greater mass than compact cars.
The rate of momentum is affected by the mass of an object and the velocity at which it is moving. An object with more mass or higher velocity will have a greater momentum.