The square root of the sun is very poetic but it's not mathematically quantifiable.
The mass of the moon is 7.34767309 x 10^22 kg
It is not possible to divide by pie but if you meant pi, that can be approximated as 3.14159
One cannot get the square root of an item. However if you want to quantify this item: The square root of the moon = the square root of (1) the moon. The square root of (1) moon is still one moon as the root of 1 is still one :P
Weight is the gravitational force exerted on an object. Your mass is the same on earth and the moon or anywhere else. Your weight depends on the gravitational force exerted on your mass and hence on your location.
An object that weighs 490 N on earth has a mass of 50 kilograms. In other places (on the moon, in space, etc.), the same object would have the same mass but different weight.
It would take 42 times to fold an average 8.5 by 11 piece of paper to reach the moon!<3
No. A pound is a measure of mass whereas the weight depends on the force of gravity acting on that mass. You can have a bunch of bananas with a mass of 1 pound. Their mass will remain 1 lb whereever, but they will weigh different amounts on the surface of the earth, on the moon (about a sixth), in outer space (near zero), on a neutron star (an enormous amount).
Mass: Earth's is 81.7 times the moon's mass.Radius: Earth's is 3.67 times the moon's radius.
The mass of Earth is about 81 times the mass of its moon, and the gravitational force between two objects is proportional to the product of their masses divided by the square of the distance between their centers.
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 moon that is described as having the largest mass is Ganymede. This is one of the moons of Jupiter. Its mass is about 2.02 times that of Earth's moon.
No. Gravity is a function of mass, and the sun's mass is about 27,000,000 times the mass of the moon.
Earth has about 50 times the volume of the Moon (and 81 times the mass of the 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.)
-- The forces of gravity between two masses are inversely proportional tothe square of the distance between the masses, and directly proportionalto the product of the masses.-- The sun is about 390 times as far from us as the moon is.-- The square of 390 is 152,690.-- So each little pellet of mass in the moon attracts each little pellet of water onEarth 152,690 times as strongly as the same size pellet of solar mass does.-- The sun has 27.08 million times as much mass as the moon has. So all thepellets in the sun put together attract each little pellet of water on the Earth27.08 million times as strongly as the whole moon would if it were at the samedistance from us as the sun is.-- Put these two together, and you have 27.08 million times stronger, divided by152,690 times weaker, = 177.4 times as much force in favor of the sun.Surprise! The sun actually has a greater effect on the tides than the moon does.
-- The earth's diameter (distance through the center) is about 3.7 times the moon's diameter. -- The earth's surface area is about 13.5 times the moon's surface area. -- The earth's volume is about 49.5 times the moon's volume. -- The earth's mass is about 82 times the moon's mass.
The mass of both the earth and the moon and the distance between each. From Newtons Law of Universal Gravitation, we see that the force due to gravity is directly proportional to the masses of both bodies and inversely proportional to the square of the distance between the centers. Since the net force equates to mass times acceleration we can say that the acceleration is equal to the differences between both forces of attraction divided by mass.
Mass is the same but weight is about six times less on the moon. This is because the gravitational field strength of the moon is about six times less than that of earth.
Yes, the Moon has about 1/81 of the Earth's mass.