### What would be your weight on Pluto?Your weight on Pluto would be significantly different from your weight on Earth due to the differences in gravitational pull between the two celestial bodies. Pluto's gravity is much weaker because it has a smaller mass compared to Earth.To calculate your weight on Pluto, you would use the following formula:\[ \text{Weight on Pluto} = \text{Weight on Earth} \times \frac{\text{Gravity on Pluto}}{\text{Gravity on Earth}} \]Given that the gravity on Pluto is about 0.063 times that of Earth's gravity, if you weigh 100 pounds on Earth, you would weigh approximately 6.3 pounds on Pluto.This change in weight does not mean your mass changes—mass is constant regardless of location. However, the force of gravity acting on that mass changes, affecting your weight.Weight (W) is calculated by the formula:\[ W = m \times g \]where \( m \) is mass and \( g \) is the acceleration due to gravity.Understanding the differences in gravitational force on different planets can help us comprehend various phenomena related to space travel and the conditions on other planets.

Gravity is an attractive force that acts on anything with a mass. Higher the mass higher the…

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What would be your weight on Pluto

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### What would be your weight on Pluto?

Your weight on Pluto would be significantly different from your weight on Earth due to the differences in gravitational pull between the two celestial bodies. Pluto's gravity is much weaker because it has a smaller mass compared to Earth.

To calculate your weight on Pluto, you would use the following formula:

\[ \text{Weight on Pluto} = \text{Weight on Earth} \times \frac{\text{Gravity on Pluto}}{\text{Gravity on Earth}} \]

Given that the gravity on Pluto is about 0.063 times that of Earth's gravity, if you weigh 100 pounds on Earth, you would weigh approximately 6.3 pounds on Pluto.

This change in weight does not mean your mass changes—mass is constant regardless of location. However, the force of gravity acting on that mass changes, affecting your weight.

Weight (W) is calculated by the formula:
\[ W = m \times g \]
where \( m \) is mass and \( g \) is the acceleration due to gravity.

Understanding the differences in gravitational force on different planets can help us comprehend various phenomena related to space travel and the conditions on other planets.

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