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If object A and object B collide object A have the same momentum as it had before the collision True or false?
False. In a collision between two objects, momentum is conserved but it is not necessarily distributed evenly between the objects after the collision. The total momentum before the collision should be equal to the total momentum after the collision, but individual objects may have different momenta.
When object A collides with object B and bounces back its final momentum is its initial momentum?
This statement is consistent with the law of conservation of momentum. When object A collides with object B and bounces back, the total momentum of the system before the collision is equal to the total momentum of the system after the collision, assuming no external forces are involved. This means that the final momentum of object A after the collision is equal to its initial momentum.
What is the related to momentum?
Momentum is a vector quantity that represents the amount of motion an object possesses. It is related to an object's mass and velocity, as momentum equals the product of an object's mass and its velocity. The principle of conservation of momentum states that in a closed system, the total momentum before a collision is equal to the total momentum after the collision.
When object A collides with object B and bounces back its final momentum is initial momentum?
in the opposite direction of
How does the mass of an object affect its collision?
The mass of an object affects its collision by determining how much momentum it has. In a collision, the momentum of each object before and after the collision must be conserved. Objects with a greater mass will have more momentum, which can result in different outcomes during a collision, such as how the objects move or if they bounce off each other.
If object A and object B collide object A have the same momentum as it had before the collision True or false?
False. In a collision between two objects, momentum is conserved but it is not necessarily distributed evenly between the objects after the collision. The total momentum before the collision should be equal to the total momentum after the collision, but individual objects may have different momenta.
When object A collides with object B and bounces back its final momentum is its initial momentum?
This statement is consistent with the law of conservation of momentum. When object A collides with object B and bounces back, the total momentum of the system before the collision is equal to the total momentum of the system after the collision, assuming no external forces are involved. This means that the final momentum of object A after the collision is equal to its initial momentum.
What is the related to momentum?
Momentum is a vector quantity that represents the amount of motion an object possesses. It is related to an object's mass and velocity, as momentum equals the product of an object's mass and its velocity. The principle of conservation of momentum states that in a closed system, the total momentum before a collision is equal to the total momentum after the collision.
When object A collides with object B and bounces back its final momentum is initial momentum?
in the opposite direction of
How does the mass of an object affect its collision?
The mass of an object affects its collision by determining how much momentum it has. In a collision, the momentum of each object before and after the collision must be conserved. Objects with a greater mass will have more momentum, which can result in different outcomes during a collision, such as how the objects move or if they bounce off each other.
What happen when a moving object with momentum collides?
When a moving object with momentum collides with another object, the total momentum of the objects before the collision is conserved. Depending on the type of collision, momentum can be transferred between the objects. In an elastic collision, kinetic energy is also conserved, while in an inelastic collision, some energy is transformed into other forms, such as heat or sound.
What happens to the total momentum of two objects in a system before and after interactions?
The total momentum before the collision is the same as the total momentum after the collision. This is known as "conservation of momentum".
Two objects collide and stick together. how does the total momentum change?
The total momentum after the collision remains the same as before the collision. This is because momentum is conserved in a closed system, even when objects stick together. The momentum of the two objects is simply combined into a single object after the collision.
What never changes when two or more objects collide?
The principle of conservation of momentum states that the total momentum of the system before the collision is equal to the total momentum after the collision, assuming no external forces are involved. Therefore, the total momentum of the objects involved in a collision will remain the same before and after the collision.
How do collision exemplify the law of conservation of momentum?
The vector sum of momenta before and after the collision is the same. One way to visualize this is that if one of the colliding objects changes its momentum (mass x velocity) in one direction, then the other colliding object must needs change its momentum in the opposite direction - by the same amount, except for the direction.
How do collisions exemplify the law of conservation of momentum?
The vector sum of momenta before and after the collision is the same. One way to visualize this is that if one of the colliding objects changes its momentum (mass x velocity) in one direction, then the other colliding object must needs change its momentum in the opposite direction - by the same amount, except for the direction.
What happens in an elastic collision?
In an elastic collision, both momentum and kinetic energy are conserved. This means that the total momentum and total kinetic energy of the system before the collision is equal to the total momentum and total kinetic energy after the collision. This typically results in objects bouncing off each other without any loss of kinetic energy.
