Try rephrasing that question, it is incoherent.
If the force of gravity acting on the moon became much stronger than the force of inertia, the moon would likely be pulled closer to the Earth. This would result in changes to the moon's orbit and potentially lead to it eventually crashing into the Earth. The increased gravitational force would also affect tides on Earth and could have significant impacts on the Earth-moon system.
If there were no friction or obstacles, the ball would roll in a straight line indefinitely due to inertia. Without any forces acting upon it, the ball would maintain its velocity and direction.
If there were absolutely no gravitational force acting on the moon, it would no longer be held in orbit around the Earth and would drift off into space.
If Earth didn't have inertia, everything on the planet would not resist changes in motion. This would mean that objects, including humans, would not have the tendency to keep moving in a straight line at a constant speed. The absence of inertia would lead to chaotic and unpredictable movements, making life as we know it impossible.
A non-example of inertia would be a moving object coming to a stop without any external force or resistance acting upon it. Inertia is the tendency of an object to resist changes in its motion, so an object stopping on its own would not demonstrate this principle.
Earth would stay the same
If the force of gravity acting on the moon became much stronger than the force of inertia, the moon would likely be pulled closer to the Earth. This would result in changes to the moon's orbit and potentially lead to it eventually crashing into the Earth. The increased gravitational force would also affect tides on Earth and could have significant impacts on the Earth-moon system.
Earth would stay the same
We would go into the sun because we don't have any inertia.. We would die
then there would be no movement
If there were no friction or obstacles, the ball would roll in a straight line indefinitely due to inertia. Without any forces acting upon it, the ball would maintain its velocity and direction.
If there were absolutely no gravitational force acting on the moon, it would no longer be held in orbit around the Earth and would drift off into space.
Inertia is measured by an object's mass. The Earth would still go around in the same orbit, because the orbit does not depend on the mass of a planet. "Inertia" is sometimes used to mean "momentum". That's mass times velocity. If the Earth's velocity increased then it would move further from the Sun. <<>> The point is that "inertia" is a nonscienific word that is used to describe different things by different people and it's best to use "mass" or "momentum" depending on what is meant.
If gravity or inertia were to suddenly stop working, the Earth would no longer be held in its orbit around the Sun and would go off into space in a straight line. It would no longer have the centripetal force needed to keep it in its circular orbit. The lack of gravity would also cause everything on Earth to float away into space.
If the moon doesn't have inertia, it means that if any force whatsoever is applied to it, it will be way out of wack. Inertia causes something to be resistant against a change in motion so if the moon had too much inertia, it would not move at the proper speed and Earth would be affected by its drop in movement. If the moon had no inertia, it wouldn't continue to keep its proper and exact distance from the earth and Earth would be affected by its increase in movement.Hope this helps!! =)
The astronaut's inertia on the moon would be the same as on Earth, as inertia is an object's resistance to a change in motion. However, due to the moon's lower gravity, the astronaut would weigh less and experience a reduced force opposing their motion compared to Earth.
If the moon suddenly decided to stop pusing forward (inertia), the balance between inertia and the earths gravity would cease and the moon would come crashing into us. :)