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The distance from the center of mass to Earth, times the mass of the Earth, must be equal to the distance of the center of mass to the Moon, times the mass of the Moon. (For more than 2 objects, the calculation is somewhat more complicated - reading about "center of mass" can give you an idea.)The distance from the center of mass to Earth, times the mass of the Earth, must be equal to the distance of the center of mass to the Moon, times the mass of the Moon. (For more than 2 objects, the calculation is somewhat more complicated - reading about "center of mass" can give you an idea.)The distance from the center of mass to Earth, times the mass of the Earth, must be equal to the distance of the center of mass to the Moon, times the mass of the Moon. (For more than 2 objects, the calculation is somewhat more complicated - reading about "center of mass" can give you an idea.)The distance from the center of mass to Earth, times the mass of the Earth, must be equal to the distance of the center of mass to the Moon, times the mass of the Moon. (For more than 2 objects, the calculation is somewhat more complicated - reading about "center of mass" can give you an idea.)
No. The mass of the moon is a fraction of the earth's mass.
The mass of the moon is about 1/80 that of Earth.
Because the Moon has mass, a LOT of mass. If something has mass, it will have gravitational attraction. The more mass, the greater the attraction. The moon has ~1/6th the gravity as the Earth.
The phrase "the moon is a balloon" is an example of a direct metaphor. A direct metaphor is a direct comparison of two things.
The distance from the center of mass to Earth, times the mass of the Earth, must be equal to the distance of the center of mass to the Moon, times the mass of the Moon. (For more than 2 objects, the calculation is somewhat more complicated - reading about "center of mass" can give you an idea.)The distance from the center of mass to Earth, times the mass of the Earth, must be equal to the distance of the center of mass to the Moon, times the mass of the Moon. (For more than 2 objects, the calculation is somewhat more complicated - reading about "center of mass" can give you an idea.)The distance from the center of mass to Earth, times the mass of the Earth, must be equal to the distance of the center of mass to the Moon, times the mass of the Moon. (For more than 2 objects, the calculation is somewhat more complicated - reading about "center of mass" can give you an idea.)The distance from the center of mass to Earth, times the mass of the Earth, must be equal to the distance of the center of mass to the Moon, times the mass of the Moon. (For more than 2 objects, the calculation is somewhat more complicated - reading about "center of mass" can give you an idea.)
No. Earth's gravity is due to Earth's own mass. The moon has its own gravity due to its mass, but that gravity is much weaker than Earth's.
The mass of the Moon is 7.3477 × 1022 kg.AdditionallyIn comparison to Earth, mass of moon = 0.0123 Earths. The Moon's mass is 1/81 of Earth's.
1 earth mass = 81.78 moon mass (rounded)1 moon mass = 0.01223 earth mass = 1.223% of earth mass (rounded)The mass of the moon is only 1.2 percent of the mass of Earth.
No. The mass of the moon is a fraction of the earth's mass.
The mass of the object, the mass of the object that is attracting it and the distance between their centres of gravity.So your weight on the moon will depend on your mass, the moon's mass and the distance from your centre of gravity to the moon's.The mass of the object, the mass of the object that is attracting it and the distance between their centres of gravity.So your weight on the moon will depend on your mass, the moon's mass and the distance from your centre of gravity to the moon's.The mass of the object, the mass of the object that is attracting it and the distance between their centres of gravity.So your weight on the moon will depend on your mass, the moon's mass and the distance from your centre of gravity to the moon's.The mass of the object, the mass of the object that is attracting it and the distance between their centres of gravity.So your weight on the moon will depend on your mass, the moon's mass and the distance from your centre of gravity to the moon's.
No. The earth's mass is equal to about 82 times the moon's mass. (Moon's mass is equal to about 1.2% of the earth's mass.)
Earth's moon is roughly 1.2% the mass of earth.
The mass of the moon is about 1/80 that of Earth.
In terms of mass - not weight - the Moon has more mass than Pluto.The Moon has a mass of 7.3477 x 1022 kgPluto has a mass of 1.305 × 1022 kg or about 0.178 that of the Moon
Because the Moon has mass, a LOT of mass. If something has mass, it will have gravitational attraction. The more mass, the greater the attraction. The moon has ~1/6th the gravity as the Earth.
The phrase "the moon is a balloon" is an example of a direct metaphor. A direct metaphor is a direct comparison of two things.