The mass of a watermelon remains the same regardless of its location, including the Moon. If a watermelon has a mass of, for example, 5 kilograms on Earth, it will still have a mass of 5 kilograms on the Moon. However, its weight would be significantly less on the Moon due to the Moon's weaker gravitational pull, which is about 1/6th that of Earth's.
No. The mass of the moon is a fraction of the earth's mass.
No, they do not have the same mass. The moon has much less mass than Earth.
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 diameter of the Moon is 3,474 km and the diameter of the Earth is 12,742 km. This makes the Moon approximately 27% the size of the Earth. The mass of the Moon is 7.347 x 1022 kg and the mass of the Earth is 5.97x 1024 kg. The mass of the Moon is only 1.2% of the mass of the Earth.
A kilogram is a unit of mass. If a watermelon is that big, then it is a kilogram.
Because the apple has a smaller mass than the watermelon does.
Blind Watermelon Fishin in the Dark
Lightest: Apple, Banana, Orange, Watermelon Heaviest: Orange, Apple, Banana, Watermelon
A kilogram.
No. The mass of the moon is a fraction of the earth's mass.
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.
The force required to accelerate an object depends on its mass, according to Newton's second law of motion (F = ma). The watermelon has a larger mass compared to the apple, so more force is needed to accelerate the watermelon at the same rate as the apple.
No, they do not have the same mass. The moon has much less mass than Earth.
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.)