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How can the concept of momentum compare to a slow moving train and a high speed bullet?
Momentum is the product of an object's mass and velocity. A high-speed bullet has more momentum than a slow moving train because the bullet has a smaller mass but much higher velocity. This means the bullet can have more impact and be harder to stop compared to the train, even though the train has more mass.
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How do you apply the concept of momentum to compare the mass and velocity of a slow moving train and of a high-speed bullet?
The momentum of an object is the product of its mass and velocity. In the case of a slow moving train and a high-speed bullet, the bullet would have a higher momentum due to its higher velocity even if its mass is smaller. This is because momentum is more affected by velocity than by mass.
What is the total momentum of the bullet and the gun before firing?
The total momentum of the bullet and the gun before firing is zero, as the gun and the bullet are at rest. Momentum is the product of mass and velocity, and since both the gun and the bullet are not moving, their momentum is zero.
Why does a slow-moving loaded truck and a speeding rifle bullet each have a large momentum?
Both the loaded truck and the rifle bullet have large momentum because momentum depends on both mass and velocity. Even though the truck is moving slowly but has a large mass, and the rifle bullet is moving very fast with a relatively small mass, both contribute to their large momentum values.
Why do both you slowly docking ferry boat and a speedy rifle bullet have a large amount of momentum?
Both the ferry boat and the rifle bullet have large amounts of momentum because momentum is determined by the mass and velocity of an object. Even though the ferry boat is moving slowly but has a large mass, while the rifle bullet is moving quickly but has a much smaller mass, their momentum values end up being significant due to the combination of these two factors.
Why does a speeding bullet and a fact moving train have so much force?
A speeding bullet and a fast-moving train have a lot of force because of their momentum. Momentum is the product of mass and velocity, so the greater the speed and mass of an object, the more force it has. In the case of a bullet or a train, their high velocity and mass result in a significant amount of force when they collide with another object.
How do you apply the concept of momentum to compare the mass and velocity of a slow moving train and of a high-speed bullet?
The momentum of an object is the product of its mass and velocity. In the case of a slow moving train and a high-speed bullet, the bullet would have a higher momentum due to its higher velocity even if its mass is smaller. This is because momentum is more affected by velocity than by mass.
What is the total momentum of the bullet and the gun before firing?
The total momentum of the bullet and the gun before firing is zero, as the gun and the bullet are at rest. Momentum is the product of mass and velocity, and since both the gun and the bullet are not moving, their momentum is zero.
Why does a slow-moving loaded truck and a speeding rifle bullet each have a large momentum?
Both the loaded truck and the rifle bullet have large momentum because momentum depends on both mass and velocity. Even though the truck is moving slowly but has a large mass, and the rifle bullet is moving very fast with a relatively small mass, both contribute to their large momentum values.
Does a tiny bullet have more momentum than a huge truck?
It depends on how fast each is going and how much each weighs. Momentum is calculated by multiplying the mass of an object by its speed. A tiny bullet moving very fast can have more momentum than a huge truck if the truck is moving very slowly (or not at all). (bullet mass) X (bullet speed) > (truck mass) X (truck speed)
Why do both you slowly docking ferry boat and a speedy rifle bullet have a large amount of momentum?
Both the ferry boat and the rifle bullet have large amounts of momentum because momentum is determined by the mass and velocity of an object. Even though the ferry boat is moving slowly but has a large mass, while the rifle bullet is moving quickly but has a much smaller mass, their momentum values end up being significant due to the combination of these two factors.
What is the recoil velocity of the pistol when a bullet of mass 20g is fired with a velocity 150ms from a pistol of mass 2kg?
Momentum before = momentum after. Since there was no movement before, momentum before = 0 If you think of the bullet as forward/positive momentum and the gun as backward/negative momentum then the momentum of the bullet plus the momentum of the gun =0 and therefore the momentum of the bullet = the momentum if the gun. momentum = mass x velocity P=m/v 20gx150m/s = 2000g (2kg) x velocity 3000 = 2000v 3000 / 2000 = v v = 1.5m/s
Linear of momentum recoil of a rifle formula?
The formula is, quite simply, that the momentum before and after the shot is the same. You can assume that the momentum before the shot is zero (because the rifle and the bullet were not moving), so after the shot, the total momentum will also be zero.
Why does a speeding bullet and a fact moving train have so much force?
A speeding bullet and a fast-moving train have a lot of force because of their momentum. Momentum is the product of mass and velocity, so the greater the speed and mass of an object, the more force it has. In the case of a bullet or a train, their high velocity and mass result in a significant amount of force when they collide with another object.
What are some examples of momentum?
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.
What is the recoil velocity of the pistol when a bullet of mass 200g is fired with a velocity 30m per second from a pistol of mass 100kg?
Use conservation of linear momentum. Before firing the bullet the total momentum was zero (assuming you were not moving), therefore, after firing the bullet, the total momentum must needs also be zero. Therefore, after the shot, m1v1 + m2v2 = 0, where m1 and v1 correspond to the pistol, and m2 and v2 correspond to the bullet.
Which has greater momentum you steadily jogging one kilometer in 6 minutes or a 5-gram rifle bullet moving at 1000 ms?
You because the product of your mass and velocity will be higher than that of a bullet
Why does a speeding bullet and a moving train have so much force?
Each of those items has large momentum and kinetic energy ... the bullet because of its high speed, and the train on account of its large mass.
