Yes, the pressure of the materials that are pressed together by gravity.
Yes, the pressure of the materials that are pressed together by gravity.
Yes, the pressure of the materials that are pressed together by gravity.
Yes, the pressure of the materials that are pressed together by gravity.
Yes, the pressure of the materials that are pressed together by gravity.
The mass of the Earth can be determined by the gravitational force it exerts on any object. This works, once the gravitational constant is known. The gravitational constant can be measured with a Cavendish balance.
The gravity of earth is not uniform throughout the entire surface of earth. Gravitational force changes with altitude and is different at poles and at the equator. As spring balance relies on the gravitational pull of earth, it can not weigh accurately at all locations.
The answer depends on what "it" is and the overall context. The answer could be the centre of the earth where the earth's gravity has no effect, or the Lagrange point where the gravitational forces of the moon, earth and sun balance each other.
No, the gravitational force of the Earth, or any body in the Universe, is because of the mass of that body...... the amount of matter the body comprises. The greater the mass, the greater the gravitational tug.
Things balance because earth's gravitational constant is 1 and equilibrium will pull objects down therefor making thing balanced.
Anything that has mass exerts a gravitational field, so yes, earth exerts one.
The Moon is orbiting a planet; It is orbiting the Earth. The velocity /acceleration of the Moon and the gravitational pull between Earth and Moon are in balance, so the Moon remains orbiting the Earth. Similarly the Earth and Moon , as a binary system, orbit the Sun , and the acceleration and gravitational forces are in balance. So none of us collide.
Yes, they have gravity. In fact, anything that has mass will have a gravitational force - the more mass a body has, the more gravitational force it will exert.
Anything with mass has a gravitational pull. Oxygen has mass, and will therefore have a gravitational pull. Earth's gravity, though, is not a consequence of the oxygen in its atmosphere.
The balance between the inertia of the Moon and the gravitational pull keeps the moon in orbit with Earth.
Gravitational force Tectonic force Diastrophism
No. The gravitational force is a different force from magnetism, and depends only on the mass and the distance. Specifically, a body does not need to rotate to have gravitational force.