The mass always stays the same, but because gravity is 38% of Earth, weight is only 38 pounds for every 100 pounds on earth.
The weight of an object on Earth is approximately six times its weight on the Moon due to the difference in gravity between the two celestial bodies. Therefore, if an object weighs 42 lbs on the Moon, its weight on Earth would be around 252 lbs.
If you weigh 300 pounds in space, you would also weigh 300 pounds on Earth. Weight is the force exerted on a mass due to gravity, and the gravitational force acting on an object is similar in space and on Earth.
The gravity of Uranus is about 0.86 that of Earth. This means an object that weighs 100 pounds on Earth would weigh 86 pounds on Uranus.
On Mars, you weigh 37.7% as much as you would on Earth. If you weigh 100 pounds on Earth, you weigh only 37.7 pounds on Mars. If you weigh 150 pounds on Earth, you weigh only 56.6 pounds. The equation is .37 x Earth weight = Martian weight.
The weight of the object on Earth would be 300 Newtons. To convert this to pounds, you can use the conversion factor: 1 Newton is approximately equal to 0.225 pounds. Therefore, the weight of the object in pounds would be 300 Newtons * 0.225 pounds/Newton = 67.5 pounds.
250 pounds
The weight of an object on the moon is about 1/6th of its weight on Earth. This is because the moon's gravity is weaker than Earth's gravity. So, if an object weighs 60 pounds on Earth, it would weigh about 10 pounds on the moon.
61 pounds :)
On Earth, an object weighs about 9.8 newton for every kilogram.On Mars, an object weights about 3.7 newton for every kilogram.
The mass always stays the same, but because gravity is 38% of Earth, weight is only 38 pounds for every 100 pounds on earth.
Weight = m gm = weight/g = 39.2/9.8 = 4 kg
The weight of an object on Earth is approximately six times its weight on the Moon due to the difference in gravity between the two celestial bodies. Therefore, if an object weighs 42 lbs on the Moon, its weight on Earth would be around 252 lbs.
If you weigh 300 pounds in space, you would also weigh 300 pounds on Earth. Weight is the force exerted on a mass due to gravity, and the gravitational force acting on an object is similar in space and on Earth.
The gravity of Uranus is about 0.86 that of Earth. This means an object that weighs 100 pounds on Earth would weigh 86 pounds on Uranus.
The weight of a 40kg object on Earth would be approximately 392.4 Newtons. Weight is calculated by multiplying the mass of an object by the acceleration due to gravity (9.81 m/s^2).
The weight of an object that is 100 pounds on Earth would be approximately 38 pounds on Mercury. This is because Mercury's gravity is about 38% that of Earth's, so the object would weigh less on Mercury.