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What is the elastic collision equation used to calculate the final velocities of two objects after they collide?
The elastic collision equation used to calculate the final velocities of two objects after they collide is:
m1u1 m2u2 m1v1 m2v2
where: m1 and m2 are the masses of the two objects, u1 and u2 are the initial velocities of the two objects before the collision, and v1 and v2 are the final velocities of the two objects after the collision.
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What are the physics elastic collision equations used to calculate the final velocities of two objects after they collide?
The physics elastic collision equations used to calculate the final velocities of two objects after they collide are: Conservation of momentum: m1u1 m2u2 m1v1 m2v2 Conservation of kinetic energy: 0.5m1u12 0.5m2u22 0.5m1v12 0.5m2v22 Where: m1 and m2 are the masses of the two objects u1 and u2 are the initial velocities of the two objects v1 and v2 are the final velocities of the two objects
In an isolated system two cars each with a mass of 2500 kg collide. Car 1 is initially at rest while Car 2 was moving at 20 ms. What is their speed after the collision?
10 m/s
What are the elastic collision equations used to calculate the final velocities of two objects after they collide?
In an elastic collision, the final velocities of two objects can be calculated using the equations: (v1f fracm1 - m2m1 m2 cdot v1i frac2m2m1 m2 cdot v2i) (v2f frac2m1m1 m2 cdot v1i fracm2 - m1m1 m2 cdot v2i) where: (v1i) and (v2i) are the initial velocities of the two objects, (v1f) and (v2f) are the final velocities of the two objects, and (m1) and (m2) are the masses of the two objects.
What happens to all the momentum when two billiard balls?
The momentum stays the same.
A 40Kg football player leaps through the air to collide with and tackle a 60Kg player heading toward him also in the air. If the 40Kg player is heading to the right at 7M per S and the 60Kg player...?
The collision would involve momentum conservation, where the total momentum before the collision is equal to the total momentum after the collision. By using the equation (m1v1) + (m2v2) = (m1v1') + (m2v2'), you can solve for the final velocities. The direction and speed of the players after the collision would depend on the angle and intensity of the impact and the individual masses and velocities.
What are the physics elastic collision equations used to calculate the final velocities of two objects after they collide?
The physics elastic collision equations used to calculate the final velocities of two objects after they collide are: Conservation of momentum: m1u1 m2u2 m1v1 m2v2 Conservation of kinetic energy: 0.5m1u12 0.5m2u22 0.5m1v12 0.5m2v22 Where: m1 and m2 are the masses of the two objects u1 and u2 are the initial velocities of the two objects v1 and v2 are the final velocities of the two objects
In an isolated system two cars each with a mass of 2500 kg collide. Car 1 is initially at rest while Car 2 was moving at 20 ms. What is their speed after the collision?
10 m/s
What are the elastic collision equations used to calculate the final velocities of two objects after they collide?
In an elastic collision, the final velocities of two objects can be calculated using the equations: (v1f fracm1 - m2m1 m2 cdot v1i frac2m2m1 m2 cdot v2i) (v2f frac2m1m1 m2 cdot v1i fracm2 - m1m1 m2 cdot v2i) where: (v1i) and (v2i) are the initial velocities of the two objects, (v1f) and (v2f) are the final velocities of the two objects, and (m1) and (m2) are the masses of the two objects.
What happens to all the momentum when two billiard balls?
The momentum stays the same.
A 40Kg football player leaps through the air to collide with and tackle a 60Kg player heading toward him also in the air. If the 40Kg player is heading to the right at 7M per S and the 60Kg player...?
The collision would involve momentum conservation, where the total momentum before the collision is equal to the total momentum after the collision. By using the equation (m1v1) + (m2v2) = (m1v1') + (m2v2'), you can solve for the final velocities. The direction and speed of the players after the collision would depend on the angle and intensity of the impact and the individual masses and velocities.
What Abstract noun of collide?
Collision.
What is the time to collision formula used to calculate the time it will take for two objects to collide?
The time to collision formula is used to calculate the time it will take for two objects to collide. It is calculated by dividing the distance between the two objects by the relative speed at which they are moving towards each other.
What is the degree in an inelastic glancing collision?
In an inelastic glancing collision, momentum is conserved but kinetic energy is not. The resulting degree of the collision depends on the masses and velocities of the objects involved, as well as the angle at which they collide. The objects will move together after the collision, with some of the initial kinetic energy being transformed into other forms of energy such as heat or sound.
What is the force when to objects collide?
The force when two objects collide depends on factors like their masses, velocities, and the duration of the collision. This force can be calculated using principles of physics and typically results in a transfer of momentum between the objects involved in the collision. In cases of elastic collisions, the force can also affect the direction and speed of the objects after impact.
What is a verb for collision?
Collide
When two objects collide they exert forces on each other that change momentum?
Yes, when two objects collide, they exert forces on each other that can change their velocities and momenta according to the principle of conservation of momentum. Depending on the type of collision (elastic vs inelastic), the total momentum before and after the collision may remain constant.
If two gliders of equal mass and equal and opposite initial velocity collide perfectly elastically what are the final velocities of the gliders in terms of the initial velocities?
The final velocities of the gliders after a perfectly elastic collision will also be equal and opposite to their initial velocities. This is due to the conservation of momentum and kinetic energy in elastic collisions.
