AI Weight on Planets Calculator
Discover how much you would weigh on different planets and celestial bodies in our solar system.
Note: These calculations are based on each celestial body's gravity relative to Earth. Your mass remains constant, but weight changes with gravity.
Space Weight Tips: Understanding Gravity Differences
Gravity Basics
- Weight changes with gravity, but mass stays constant
- Jupiter has 2.5x Earth's gravity
- The Moon has only 1/6th of Earth's gravity
Fun Facts
- You'd weigh 28x more on the Sun than Earth
- Mars gravity is about 38% of Earth's
- Saturn's gravity is similar to Earth's despite its size
"Our AI-powered calculator helps space enthusiasts explore gravity differences across our solar system with scientific accuracy!"
Planetary Gravity Comparison
Gas Giants
Jupiter and Saturn have massive gravity fields. While Jupiter's gravity is 2.5x Earth's, Saturn's is surprisingly only 1.06x due to its low density.
Rocky Planets
Mars has 0.38g while Venus has 0.91g - nearly Earth-like. Mercury's gravity is just 0.38g, similar to Mars despite being smaller.
Dwarf Planets & Moons
Pluto has only 0.06g gravity. Our Moon's gravity is 0.16g - perfect for those giant leaps astronauts are famous for!
Did You Know? Your weight on Jupiter would be 2.5x your Earth weight, but you'd actually feel lighter on Saturn despite its size!
Frequently Asked Questions
How does the weight calculator work?
It calculates your weight on other celestial bodies by applying their gravity relative to Earth's. The formula is: (Your Earth Weight) × (Body's Gravity / Earth's Gravity).
Why is my weight different but mass the same?
Mass measures matter content (constant), while weight measures gravitational force (changes). You'd have the same mass everywhere, but weight varies with gravity.
Can I calculate weight for objects beyond our solar system?
Currently we focus on our solar system's major bodies. For exoplanets, we'd need precise gravity measurements which are often unknown.
Note: These calculations are approximate and for educational purposes only. Actual weights may vary slightly based on precise location and altitude on each celestial body.