No; the Earth has over eighty times the mass of the Moon. Our Moon is overall about three fifths the density of the Earth; which is itself a scientific curiosity since this would mean the lunar core has an unusually low density.
The mass of the Earth is six times more than the moon.
Yes, Earth has a greater mass and density compared to the Moon, resulting in a stronger gravitational force. The force of gravity between two objects is directly proportional to their masses and inversely proportional to the square of the distance between them.
Your mass is the same wherever you go.You weigh more on the Earth, because your weight depends on your own massand on the mass that's attracting you to it, and Earth's mass is about 80 timesmore than the moon's mass.
Gravity increases as mass or density increases. In other words, the more mass an object has, the more gravitational force it exerts. For example, the gravity on Earth is stronger than the gravity on the Moon because Earth has more mass.
For astronomical objects, it is more appropriate to talk about the mass of an object, not about its weight. The Moon has a mass of 7.35 x 1022 kilogram, that is about 1.2% of Earth's mass.
The moon has about one-sixth the gravity of Earth.
The moon's mass is 7.35 x 1022 kg, about 1.2 percent of Earth's mass. Put another way, Earth weighs 81 times more than the moon. The moon's density is 3.34 grams per cubic centimeter (3.34 g/cm3). That is about 60 percent of Earth's density.
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.)
The mass of the Earth is six times more than the moon.
Because earth contains more matter as compared to moon.
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.)
yes
Yes, Earth has a greater mass and density compared to the Moon, resulting in a stronger gravitational force. The force of gravity between two objects is directly proportional to their masses and inversely proportional to the square of the distance between them.
No. Earth is about 80 times more massive than the moon.
Yes, the Moon has about 1/81 of the Earth's mass.
a rock in earth
There is no such thing as weight in space as there is no gravity up there. Although seeing as the earth has more mass it would weigh more if there where gravity in space.