The gravity from a massive body produces a force on other massive bodies inside its gravitational field.
Gravitational attraction is a result of the amount of matter there is in an object. The more mass the greater the gravitational attraction. Jupiter has far more mass than the earth hence a greater gravitational attraction.
Magnetism
If the force is gravity, the answer is yes. Gravity "pulls" on an object in proportion to its mass. A heavier (more massive) object is pulled on by gravity more than a lighter (less massive) object. A football tackle is pulled on by gravity more than the average grade school student.
no
inertia
Such an object makes a larger dent in the fabric of space-time than an object with little mass. (It has a greater gravitational attraction than less massive objects)A greater force is required to accelerate such an object than a less massive object
Such an object makes a larger dent in the fabric of space-time than an object with little mass. (It has a greater gravitational attraction than less massive objects)A greater force is required to accelerate such an object than a less massive object
No, mass is the same for an object wherever it goes. What changes is its weight, which is the force of attraction acting on it through proximity to a massive object.
Gravitational attraction is a result of the amount of matter there is in an object. The more mass the greater the gravitational attraction. Jupiter has far more mass than the earth hence a greater gravitational attraction.
Gravity is a force of attraction that acts between all objects with mass. The more massive the object, the grater the attraction. Earth has quite a bit of mass and so has fairly strong gravity.
It comes down to one thing, the mutual gravitational attraction that the 'thing' has with a nearby body like earth. The object weighs very little if the mutual attraction is very weak, and it weighs proportionally more, the greater the attraction. In the middle of space, far from any large masses, any and every object, however massive, is weightless.
The Earth is more massive. The same force will result in less acceleration on a more massive object (Newton's Second Law).
The Earth is more massive. The same force will result in less acceleration on a more massive object (Newton's Second Law).
sexual attraction or mutual attraction
"attraction"
Mass to the object.
gravity