Interesting

How would throwing a ball on the moon be different than throwing a ball on Earth?

How would throwing a ball on the moon be different than throwing a ball on Earth?

The difference between throwing a ball on the earth and the moon will be the gravitational field strength. The atmosphere/lack of, will only come into play after you have thrown ithe ball. The gravitational field strength has a very minoir effect.

What would happen if you threw a ball in space?

If you are throwing the ball at ‘space’ space, I.e, outer space, then it will suffer infenitisemally small resistive force. Since no force is experienced, it would continue in the velocity with which it left your hand(Newton’s first law).

READ ALSO:   Does vaping cause thick mucus?

Do objects fall faster on earth or the moon?

Earth has a greater mass than the moon. Therefore, gravity is higher in earth than moon. So objects on earth fall faster than on the moon.

Can the moon break?

During an explosion, the moon would break apart into many different pieces. Some of these pieces would be large, and other pieces would be small. All of those pieces of moon debris would move in different directions. A weak explosion with larger pieces of debris might create new moons around the Earth.

How fast can you throw a ball on the Moon?

To get a ball to leave the moon’s gravity and reach the earth, you’d have to throw it at over 2 kilometers per second – about 5000 miles per hour.

Can a tennis player throw a ball off the Moon?

Given that the best tennis players can only achieve speeds of 150 mph with the aid of a tennis racket, your chances of being capable of throwing a ball off the moon is not very good. The hack this influencer used to break the private jet industry.

READ ALSO:   How long does it take light from the Sun to get to Earth?

What is the air resistance of a golf ball on Moon?

There are no air resistance on the moon. On earth, the spin of the golf ball influences the trajectory of the shot, this is known as the magnus effect. The magnus force applied by the back spin of a golf shot is essentially what keeps the ball airborne on earth.