In any gravitational interaction, the forces are equal and opposite ... Each object is pulled
toward the center of the other one, and the strengths of the two forces are equal.
In daily life on Earth, we call the force that attracts us toward the center of the Earth our "weight".
Nobody ever talks about the force of gravity that attracts the Earth toward you, but it's equal.
Your weight on Earth is the same as the Earth's weight on you.
Weight is a measure of the force of gravity on a person. This is why, when you visit another planet that has a different gravitational pull, you may weight more or less because gravity has less effect on you.
the "weight" of either one
The force (equal on both objects) is measured in newtons.
The WEIGHT is the measure of the force of gravity on an object (including people).weight = mass x gravitational field The gravitational field near Earth's surface is approximately 9.8 newton/kilogram.
No, mass does not vary according to the force of gravity. Mass is a measure of how much matter an object has. Weight, however, is a measure of the force of gravity acting on an object; as such, weight varies according to gravitational field strength.
Weight is a measure of the force of gravity on a person. This is why, when you visit another planet that has a different gravitational pull, you may weight more or less because gravity has less effect on you.
the "weight" of either one
Weight is a measure of how the mass of an object responds to a gravitational force.
Weight is a measure of how the mass of an object responds to a gravitational force.
The force (equal on both objects) is measured in newtons.
No, the Newton is a measure of weight = mass * gravitational acceleration.
The unit of measurement used to measure gravity (G's) is actually based off of Earth's gravitational pull; one G is the level of gravity on Earth.
The WEIGHT is the measure of the force of gravity on an object (including people).weight = mass x gravitational field The gravitational field near Earth's surface is approximately 9.8 newton/kilogram.
You can use matter or light to measure the force of gravity, because gravity distorts the shape of space around the gravitational body thus distorting the path that matter or light travels through that space.
No, mass does not vary according to the force of gravity. Mass is a measure of how much matter an object has. Weight, however, is a measure of the force of gravity acting on an object; as such, weight varies according to gravitational field strength.
Weight is the measurement of gravitational force on an object, relevant to Earth.
to measure the pull of gravity,the mass of the body is multiplied by 9.8 newton approximately ,this gives the force by which the body is pulled by gravity . for example : if a body mass is of 6 kg,then the gravitational pull is 58.8 newtons.