Weight on Other Planets
How to Calculate Weight on Other Planets
Weight on Other Planets helps you see how gravity changes what the scale would say across the solar system, from the Moon to Mars to massive Jupiter. You enter your Earth weight once, and you instantly get your equivalent weight on each planet (and other worlds) based on their surface gravity. Astronomy students and science teachers use Weight on Other Planets to make lessons about mass vs. weight feel concrete instead of abstract. It’s also useful when you’re prepping a space-themed project or story: if you’re building a Mars habitat model for a school expo, you can quickly translate an astronaut’s Earth weight into what they’d weigh on Mars to keep your details consistent. Weight on Other Planets keeps the math out of the way so you can focus on comparing worlds, spotting the biggest differences, and getting an intuitive feel for how much gravity varies from rocky planets to gas giants.
How does the 'Weight on Other Planets' calculator work?
This calculator determines your weight on other celestial bodies by multiplying your Earth weight by a specific gravitational factor for that planet or moon. This factor represents the ratio of the gravitational acceleration on that body compared to Earth's gravity. Essentially, it's a direct scaling of your Earth weight based on the local gravity.
How is weight calculated on other planets? Weight on other planets is calculated by multiplying an object's mass by the planet's surface gravity. Since mass remains constant, the difference in weight across celestial bodies is directly proportional to their gravitational acceleration. The formula is Weight = Mass × Surface Gravity.
Why would someone weigh less on the Moon than on Earth? Someone would weigh less on the Moon than on Earth because the Moon has significantly less mass and, consequently, a weaker gravitational pull. The Moon's surface gravity is approximately one-sixth that of Earth's, meaning an object's weight there would be about 16.5% of its Earth weight.
Which planet in our solar system would make someone weigh the most? Jupiter would make someone weigh the most among the planets in our solar system. Despite its low density, Jupiter's immense mass results in a surface gravity about 2.5 times stronger than Earth's, causing an individual to weigh considerably more there.
Weight on Other Planets Calculator
ProCalc.ai's Weight on Other Planets Calculator (part of our Astronomy tools) shows what you would weigh on every planet in our solar system, plus the Moon, Pluto, and the Sun. Enter your weight on Earth and instantly see your weight on all celestial bodies, along with each body's surface gravity relative to Earth.
The physics is straightforward: Weight = Mass × Surface Gravity. Since we know your mass (weight on Earth ÷ 9.81 m/s²), we multiply by each body's surface gravity. Mars has 38% of Earth's gravity, so a 150-pound person weighs 57 lbs there. Jupiter's gravity is 2.53× Earth's, making you weigh 379 lbs. The Moon is 16.6% — a 150-lb person weighs just 25 lbs, which is why Apollo astronauts could hop around so easily in heavy spacesuits. On the Sun's surface (if you could survive), you'd weigh 28× your Earth weight.
Surface gravity depends on both mass and radius — it's proportional to mass and inversely proportional to radius squared. Saturn is 95× Earth's mass but has such a large radius that its surface gravity is only 1.07× Earth's. This is why Saturn, despite being massive, would feel almost the same as standing on Earth. This calculator is popular for science education, space enthusiasts, science fair projects, and anyone curious about the physical experience of living on other worlds.
Weight on Other Planets — Frequently Asked Questions(8)
Common questions about weight on other planets.
Last updated Mar 2026
What “Weight on Other Planets” Means (and Why It Changes)
Your weight is the force of gravity pulling on your body. On Earth, that pull is stronger than on the Moon, weaker than on Jupiter’s cloud tops, and different on every world in the solar system. What stays the same is your mass (how much “stuff” you’re made of). If you step onto another planet, your mass does not change—but your weight does, because the planet’s gravity (more precisely, its surface gravitational acceleration) is different.
ProCalc.ai’s “Weight on Other Planets” calculator makes this simple: enter your Earth weight, choose a planet (or the Moon), and it multiplies your Earth weight by that world’s gravity factor relative to Earth.
This is the same idea NASA uses when comparing surface gravity across bodies: each world has a characteristic surface gravity, often expressed relative to Earth’s. (Gold source: NASA Solar System Exploration, “Planetary Fact Sheet” and planet overview pages: https://solarsystem.nasa.gov)
The Formula (Earth Weight × Planet Factor)
ProCalc.ai uses a straightforward scaling model:
Weight on target world = Earth weight × planet factor
- Earth weight: the number you enter (in any weight unit you use consistently—kg, lb, N, etc.). - Planet factor: the target world’s surface gravity divided by Earth’s surface gravity.
Because it’s a ratio, the unit cancels out. If you enter 70 (meaning 70 kg as a “scale reading”), the output is in the same style of unit. If you enter 154 (meaning 154 lb), the output is in lb.
### Common gravity factors (relative to Earth) These are widely cited approximate ratios based on surface gravity values:
- Moon: 0.165 - Mercury: 0.38 - Venus: 0.91 - Mars: 0.38 - Jupiter: 2.53 - Saturn: 1.07 - Uranus: 0.89 - Neptune: 1.14
Note: “surface” for gas giants is typically defined at the cloud tops where atmospheric pressure is about 1 bar, not a solid surface. That’s still useful for comparisons, but it’s a modeling convention. (Gold source: NASA Solar System Exploration)
Key terms to remember: weight, mass, gravity, surface gravity, planet factor, Earth weight.
Step-by-Step: How to Use the Calculator
1. Enter your Earth weight - Use the number your scale shows on Earth. - Don’t switch units mid-way. If you start with lb, stay with lb; if you start with kg, stay with kg.
2. Choose a planet (or the Moon) - Select the world you want to compare against Earth.
3. Calculate - ProCalc.ai multiplies your Earth weight by the selected planet factor.
4. Interpret the result - A result less than your Earth weight means weaker gravity (you’d feel lighter). - A result greater than your Earth weight means stronger gravity (you’d feel heavier).
### Pro Tips - Use the same unit consistently. The calculator preserves your unit because it’s multiplying by a ratio. - Round sensibly. For everyday intuition, 1–2 decimal places is plenty. Planetary gravity varies by latitude and elevation anyway. - Remember “weight” is force. If you’re doing physics homework, you may want weight in newtons: Weight = mass × g. But ProCalc.ai’s factor method is perfect for quick comparisons. - Gas giants are “cloud-top” estimates. Jupiter and Saturn results are still meaningful, just not “standing on rock” scenarios.
### Worked Examples (with Real Numbers)
### Example 1: Earth weight 70 → Moon and Mars Let’s say your Earth weight is 70.
On the Moon - Planet factor (Moon) = 0.165 - Weight = 70 × 0.165 = 11.55 So you’d weigh about 11.6 on the Moon.
On Mars - Planet factor (Mars) = 0.38 - Weight = 70 × 0.38 = 26.6 So you’d weigh about 26.6 on Mars.
What this means in plain terms: walking and jumping would feel much easier on the Moon than on Mars, because lunar gravity is less than half of Mars’s.
### Example 2: Earth weight 160 → Jupiter Suppose your Earth weight is 160.
On Jupiter - Planet factor (Jupiter) = 2.53 - Weight = 160 × 2.53 = 404.8 So you’d weigh about 404.8 on Jupiter (at the 1-bar cloud-top level used for comparisons).
This big jump is why Jupiter is famous for strong gravity. Even though Jupiter is much larger, its “surface” gravity isn’t hundreds of times Earth’s because gravity depends on both mass and distance from the center; at the cloud tops, you’re also far from Jupiter’s center compared with a smaller rocky planet.
### Example 3: Earth weight 120 → Venus and Saturn Assume your Earth weight is 120.
On Venus - Planet factor (Venus) = 0.91 - Weight = 120 × 0.91 = 109.2 So you’d weigh about 109.2 on Venus—surprisingly close to Earth.
On Saturn - Planet factor (Saturn) = 1.07 - Weight = 120 × 1.07 = 128.4 So you’d weigh about 128.4 on Saturn (again, using the standard cloud-top convention).
These two results often surprise people: Venus is nearly Earth-like in surface gravity, and Saturn’s is only modestly higher than Earth’s despite being a gas giant.
### Common Mistakes (and How to Avoid Them)
1. Confusing mass with weight - Your mass stays constant; your weight changes with gravity. If you’re comparing “how heavy you feel,” you want weight.
2. Mixing units - Entering Earth weight in one unit and interpreting the result as another leads to wrong conclusions. The calculator outputs in the same unit you input.
3. Assuming gravity is the same everywhere on a planet - Surface gravity varies slightly with latitude (due to rotation) and altitude. Planet factors are averages meant for easy comparison, not precision engineering.
4. Treating gas giants like solid ground - Jupiter, Saturn, Uranus, and Neptune don’t have a solid surface you can stand on like Earth. The listed gravity is a standardized reference level. It’s still great for “what would the scale read” comparisons, but it’s not a literal standing-on-the-ground scenario.
5. Over-rounding too early - Keep a couple of digits during calculation (or let the calculator do it), then round at the end.
If you want to sanity-check any result, remember the core logic: if the planet factor is 0.38, your weight should be a bit more than one-third of your Earth weight; if it’s 2.53, it should be about two and a half times.
For authoritative planetary gravity values and comparisons, NASA’s solar system resources are a reliable reference. (Gold source: NASA Solar System Exploration: https://solarsystem.nasa.gov)
Weight on Other Planets Formula & Method
Ever wondered how much you'd weigh on Mars, or if you'd feel significantly lighter on the Moon? Our "Weight on Other Planets" calculator helps you explore this fascinating concept by applying a simple gravitational ratio. It's not about your *mass* changing, but rather the *force* exerted on that mass by a celestial body's gravity. Your mass, which is the amount of matter in your body, remains constant no matter where you are in the universe. However, your weight, which is the gravitational force acting on your mass, changes depending on the strength of the gravitational field you're in.
The core formula for calculating your weight on another planet is:
Weight on Planet = Your Weight on Earth × Gravitational Ratio of Planet
Let's break down the variables. "Your Weight on Earth" is the force of gravity exerted on your mass by our home planet. This is the value you input into the calculator, and it can be in either pounds (lbs) or kilograms (kg). While kilograms are technically a unit of mass, in common parlance, "weight in kilograms" is understood to refer to the force exerted by Earth's gravity on that mass. For scientific precision, if your input is in kilograms, the calculator implicitly converts it to Newtons (the SI unit of force) using Earth's gravitational acceleration (approximately 9.807 m/s²) before applying the ratio, and then converts it back for the output. If your input is in pounds, the calculation remains in imperial units.
The "Gravitational Ratio of Planet" is a dimensionless factor representing how much stronger or weaker the gravitational pull of a specific planet is compared to Earth's. This ratio is derived from the planet's mass and radius, as gravity is directly proportional to mass and inversely proportional to the square of the distance from the center of mass (Newton's Law of Universal Gravitation). For instance, Mars has a gravitational ratio of approximately 0.377, meaning you would weigh about 37.7% of your Earth weight there. Jupiter, being a massive gas giant, has a ratio of around 2.528, making you feel over twice as heavy. The calculator has these ratios pre-programmed for various celestial bodies in our solar system.
Here are some of the gravitational ratios used in the calculator: * Mercury: 0.378 * Venus: 0.907 * Mars: 0.377 * Jupiter: 2.528 * Saturn: 1.065 * Uranus: 0.887 * Neptune: 1.119 * Moon: 0.166 * Pluto: 0.063
It's important to note that this calculator provides a simplified model. It assumes a uniform gravitational field across the surface of the planet, which is a reasonable approximation for most practical purposes. However, real gravitational fields can vary slightly due to factors like a planet's rotation (centrifugal force reduces apparent weight at the equator), non-uniform density distribution, and irregular shapes (especially for smaller, non-spherical bodies). For instance, on Earth, you weigh slightly less at the equator than at the poles. These variations are typically minor and beyond the scope of this general calculator. Furthermore, this calculation only considers the gravitational pull of the celestial body itself and doesn't account for the negligible gravitational influence of other nearby objects. For the purpose of understanding your weight on another planet, this formula provides an excellent and accurate estimation.
Weight on Other Planets Sources & References
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