No, Earth's gravity would not affect Pluto. However, the suns gravity does.
Pluto's mass is estimated at only 1/155th of Earth's. The gravity there would be 1/15th Earth gravity.
Pluto's force of gravity is equal to 0.58m/s2, whereas the force of gravity on Earth is 9.81m/s2. Thus, the gravity on Pluto is about 6% that of the gravity on Earth.
No. The gravity of Pluto is only about 6.3% of the gravity on Earth, less than half of the gravity on the moon. This is because Pluto is about 500 times less massive than Earth.
The surface gravity on Pluto would be 0.58 meters/second2, or about 1/17th that of earth's.
Pluto's gravity is about 6% that of the Earth. A person weighing 100 lbs on the Earth would weigh 6 lbs on Pluto.
To find the weight of an object on Pluto, you can use the formula: weight on Pluto = weight on Earth × (gravity on Pluto / gravity on Earth). Earth's gravity is approximately 9.81 m/s², while Pluto's gravity is about 0.62 m/s². Thus, 28 kg on Earth would weigh approximately 1.78 kg on Pluto.
Pluto's gravity is about 7% that of Earth's. A person weighing 100 pounds on Earth, would weigh a mere 7 pounds on Pluto. The average gravitational acceleration at the surface is 0.58 meters per second2. For comparison, the acceleration of gravity on Earth is 15.94 times greater.
The acceleration of gravity on the surface of Pluto is 0.583 m/s2 . That's 5.94 percent of its value on Earth. If you weigh 200 pounds on Earth, you would weigh 11pounds 14.2ounces on Pluto.
The force of gravity on an object with a mass of 100 kg at Pluto's surface would be approximately 6.7 N. Gravity on Pluto is only about 0.063 times that of Earth's gravity, so objects weigh much less on Pluto.
Pluto's gravity is relatively weak compared to the gravity of larger planets like Earth. The gravitational pull on Pluto's surface is about 6% that of Earth's gravity. This means that a person who weighs 100 pounds on Earth would weigh only about 6 pounds on Pluto.
Pluto's gravitational field strength is about 6.7% of the Earth's.
There are forces of gravity between every speck of mass in the universe and every other speck of mass, no matter where they are, how far apart, or how large or small, all the time, everywhere, right now.