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If an object weighs 100 pounds on earth how much does it weigh on Uranus?
The weight of an object on Uranus would be slightly less than on Earth due to the weaker gravitational pull on Uranus. The exact weight would depend on the specific gravitational force on Uranus, which is about 91% of Earth's gravity. So, a 100-pound object on Earth would weigh around 91 pounds on Uranus.
How much do you weigh on Uranus if you were 220 pounds?
On Uranus, your weight would be slightly less than on Earth due to the lower surface gravity. Your weight would be approximately 188 pounds on Uranus.
Weight of an 100 pound object on venus compared to Earth?
The weight of a 100 pound object on Venus would be approximately 91% of its weight on Earth due to Venus having a slightly weaker gravitational pull than Earth. This means the object would weigh around 91 pounds on Venus.
If you weighed 100 pounds on Earth how much would you weigh on Uranus?
Your weight on Uranus would be slightly different from your weight on Earth due to differences in gravity. Uranus has a surface gravity that is about 91% of Earth's gravity, so if you weighed 100 pounds on Earth, you would weigh approximately 91 pounds on Uranus.
If you weighed 75 on Earth what would you weigh on Uranus?
Your weight on Uranus would be about 88% of your weight on Earth, due to Uranus having a weaker gravitational pull than Earth. So, if you weighed 75 kg on Earth, you would weigh around 66 kg on Uranus.
If an object weighs 100 pounds on earth how much does it weigh on Uranus?
The weight of an object on Uranus would be slightly less than on Earth due to the weaker gravitational pull on Uranus. The exact weight would depend on the specific gravitational force on Uranus, which is about 91% of Earth's gravity. So, a 100-pound object on Earth would weigh around 91 pounds on Uranus.
What does a 100 pound person weight on Uranus?
Assuming the person's weight on Earth is 100 pounds, on Uranus, which has a lesser gravitational pull, that person would weigh approximately 89 pounds.
What the weight of an object on Uranus if it weighs 100 pounds on earth?
An object that weighs 100 pounds on Earth would weigh approximately 91 pounds on Uranus. This is due to the difference in gravity between the two planets.
How much a 6 pound object would weight in space?
Its mass would be 6 pounds...
What would 1 pound be on Uranus?
On Uranus, 1 pound of mass would be equivalent to about 0.88 pounds due to the lower gravitational pull compared to Earth.
How any wing flaps per second would it take for a swallow to fly with a seven pound object?
A swallow would not be able to get off the ground while carrying a seven pound object - it would be crushed under the weight!
How much air do you need to float 1 lbs in water?
To float 1 pound in water, you would need to displace 1 pound of water. This is because of Archimedes' principle, which states that the buoyant force acting on an object is equal to the weight of the fluid displaced by the object. So you would need to displace enough water to counteract the weight of the 1 pound object and make it float.
Which two planets would an object weigh more than Earth?
On all the planets with a greater mass than the earth an object would weigh more. All other things being equal.These are the planets Jupiter, Saturn, Uranus and Neptune in our solar system.
How much do you weigh on Uranus if you were 220 pounds?
On Uranus, your weight would be slightly less than on Earth due to the lower surface gravity. Your weight would be approximately 188 pounds on Uranus.
How heavy is a pound of fjhfjhdfh?
A pound is a measurment of weight. The weight of a pound does not change. Therefore, a pound of "fjhfjhdfh" would be equivalent to a pound of "abc" or "xyz", they would all be as heavy as a pound.
What would you weight be on Uranus if your weight on earth is 100 pounds?
88.9 pounds
What is the buoyant force acting on a 1000 pound floating in water?
The buoyant force acting on an object is equal to the weight of the fluid displaced by the object. For a 1000 pound object floating in water, the buoyant force acting on it would be equal to 1000 pounds, which is the weight of the water that it displaces.
