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Gravity is an attractive force that is exerted by all matter. Any two objects with mass will be attracted to one another. The greater the mass of the object, the stronger its gravity at any given distance. Most objects do not have enough mass for their gravity to be noticeable, but Earth does, as do all planets. Any object near Earth will be pulled in the direction of Earth's center.
Gravity is not unique to the Earth. All matter has gravity and all matter attracts all other matter. Since the Earth has mass it also has a gracvitational field associated with it.
Gravity is the cause of a pair of forces that attract any two specks of mass toward each other. The forces act along the line between the centers of the objects. As long as you're anywhere near Earth, the forces of gravity pull the Earth toward the center of you, and pull you toward the center of the Earth (and they're equal).
The effects would only combine for an object outside the Earth-Moon system (such as an asteroid). Otherwise, objects near the Earth and Moon will experience gravitational effects from both. The Earth's gravity holds the Moon in its orbit, and the Moon's gravity affects the Earth, notably causing the ocean tides.
Anything is about 17 percent its Earth weight if on the moon. For example, if 60 pounds on Earth, it is 10 pounds on the moon. Mass of two objects that are near each other causes weight, so the bigger the objects, the more the force of gravity.
Gravity is an attractive force that is exerted by all matter. Any two objects with mass will be attracted to one another. The greater the mass of the object, the stronger its gravity at any given distance. Most objects do not have enough mass for their gravity to be noticeable, but Earth does, as do all planets. Any object near Earth will be pulled in the direction of Earth's center.
The acceleration due to gravity on or near the Earth's surface is about 9.81 meters per second2 . The forces of gravity between the Earth and a mass on or near the surface are 9.81 newtons per kilogram in each direction.
Gravity is not unique to the Earth. All matter has gravity and all matter attracts all other matter. Since the Earth has mass it also has a gracvitational field associated with it.
The acceleration of gravity on or near the surface of Venus, and therefore the weight of objects located there, is about 9.7 percent less than on Earth.
False
-- The forces of gravity between two objects act along the line between their centers. -- For objects on Earth, one of the objects involved in mutual gravitational forces is always the Earth, just because it's the biggest mass around. -- So any object dropped on or near the Earth experiences a gravitational force that attracts it toward the center of the Earth. -- The direction from New Zealand toward the center of the Earth is not the same as the direction from Scotland toward the center of the Earth. In fact, they're nearly opposite.
The forces of gravity are the ones that pull the Earthand an object near it toward each others' centers.
The force that pulls objects to the ground.
Gravity is the cause of a pair of forces that attract any two specks of mass toward each other. The forces act along the line between the centers of the objects. As long as you're anywhere near Earth, the forces of gravity pull the Earth toward the center of you, and pull you toward the center of the Earth (and they're equal).
The effects would only combine for an object outside the Earth-Moon system (such as an asteroid). Otherwise, objects near the Earth and Moon will experience gravitational effects from both. The Earth's gravity holds the Moon in its orbit, and the Moon's gravity affects the Earth, notably causing the ocean tides.
When you're on or near the surface of the Earth, and you've decided to call the upward direction positive.
The acceleration of gravity on or near the surface of the moon, and therefore the weight of objects located there, is about 83.5 percent less than on Earth. An object on the surface of the moon weighs about 1/6 of what it weighs on Earth.