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A lunar vehicle is tested on Earth at a speed of 10 km/hour. When it travels as fast on the moon, is its momentum more, less, or the same?

Can momenta cancel?
A 2-kg ball of putty moving to the right has a head-on inelastic collision with a 1-kg putty ball moving to the left. If the combined blob doesn’t move just after the collision, what can you conclude about the relative speeds of the balls before they collided?
If only an external force can change the velocity of a body, how can the internal force of the brakes bring a moving car to rest?
Two automobiles, each of mass 500 kg, are moving at the same speed, 10 m/s, when they collide and stick together. In what direction and at what speed does the wreckage move (a) if one car was driving north and one south; (b) if one car was driving north and one east
Pls type the answer

User Aquaman
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This is because momentum is conserved in a collision, and the momentum of the two cars before the collision is equal to the momentum of the wreckage after the collision.

A lunar vehicle is tested on Earth at a speed of 10 km/hour. When it travels as fast on the moon, its momentum is less than on the earth. This is because the momentum of a moving object is equal to the product of its mass and velocity. The moon has a lower mass than the earth, and therefore the momentum of an object moving at the same velocity would be lower than on the earth.Momenta can cancel each other out. When two objects of the same mass and velocity move in opposite directions, they have equal and opposite momenta that cancel each other out, resulting in zero momentum. This is known as the conservation of momentum.

In the case of the two putty balls, if the combined blob doesn't move just after the collision, it means that the relative speeds of the balls before the collision were equal. This is because momentum is conserved, and if the two balls have the same momentum before the collision, they will have the same momentum after the collision.Brakes on a car bring it to rest by creating an internal force that opposes the motion of the car.

This force is generated by friction between the brake pads and the wheels of the car. The friction slows down the wheels, and as a result, the car's velocity decreases. This continues until the car comes to a stop.In the case of the two automobiles, if one car was driving north and one south, the wreckage would move south with a speed of 10 m/s.

If one car was driving north and one east, the wreckage would move in the northeast direction with a speed of approximately 7.07 m/s.

This is because momentum is conserved in a collision, and the momentum of the two cars before the collision is equal to the momentum of the wreckage after the collision.

User Fred Johnson
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