gravity

magnetism

ocean tides

nuclear tides

The mass of the other object would increase.

The distance between the objects would increase.

The gravitational force of the objects would remain constant.

The gravitational force between the two objects would increase.

force of gravity acting evenly in all directions around the center of mass

erosion made by asteroids hitting the objects' surface after the object's formation

heat received from the sun melting the object's surface at the time of formation

pressure of atmosphere acting evenly in all directions on the object's surface

nuclear force

electrical force

magnetic force

gravitational force

Only object B will be pulled toward Mars because object A is too far away to be affected by the field.

Object A and object B will be affected equally ty the gravitational field because the field lines indicate a uniform field.

Object B will be more affected by the gravitational field because the field lines are closer together near the surface of Mars.

Object A will be more affected ty the gravitational field because the field lines are farther apart farther from the surface of Mars.

The satellite would fall to Earth.

The satellite would stop moving.

The satellite would continue to orbit Earth.

The satellite would move into space in a straight line.

All objects move in circular orbits.

The size of an object determines the size of its orbit.

The force of gravity is what holds each object in its orbit.

The size of both an object and the object it orbits are equal.