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The force of gravity that attracts an object on Earth toward the Earth is the object's weight on Earth. The force of gravity that attracts the Earth toward an object on it is the Earth's weight on the object. Both forces are always there, and they're equal.
In any gravitational interaction, the forces are equal and opposite ... Each object is pulledtoward 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.
that is gravity
F=mGMe/re^2= 9.88 m= force which the earth attracts an object of mass m.
Yes, a weight is a force - the force with which the Earth's gravitation attracts an object.
The force of gravity that attracts an object on Earth toward the Earth is the object's weight on Earth. The force of gravity that attracts the Earth toward an object on it is the Earth's weight on the object. Both forces are always there, and they're equal.
In any gravitational interaction, the forces are equal and opposite ... Each object is pulledtoward 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.
that is gravity
F=mGMe/re^2= 9.88 m= force which the earth attracts an object of mass m.
Yes, a weight is a force - the force with which the Earth's gravitation attracts an object.
You are measuring the magnitude of the gravitational force that attracts your mass towards the center of the Earth, and the magnitude of the gravitational force that attracts the Earth towards you.
The strength of the gravitational forces between the Earth and an object on or near it is called the "weight" of the object. In reality, there are two equal and opposite forces going on. The Earth attracts the object toward it, with a force that is the weight of the object on Earth. At the same time, the object attracts the Earth toward it, with a force that is the weight of the Earth on the object. The forces are equal. When the object is our body, we obsess about the first one. Nobody ever talks about the second one.
It's not just Earth that attracts the Moon. Every object in the Universe attracts every other object. The force is called gravity, and depends on the masses and the distance. More mass --> more force. Greater distance --> less force.
Gravitation is the basis of the pair of equal forces between the earth andany other object that attracts each of them toward the center of the other.You "use" gravity to pull the earth toward the center of you with the same forcethat the earth "uses" to pull you to it. (your weight)
Yes you do. You need a force that always attracts the object toward the center of the circle. It's called a "centripetal force".
False. Every object attracts every other object, through the gravitational force.
The force that attracts other objects toward the Earth is called Earth's gravitational pull. The average strength of Earth's gravity, known as standard gravity, is 9.80665 m/s2