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Calculate Your Weight on the Sun

Discover the massive gravitational force of our solar system's star

Your Weight on Earth Enter your current weight.

Please enter a valid positive number.

Unit of Measurement Pounds (lbs) Kilograms (kg) Select your preferred unit.

Your Weight on the Sun

5,022 lbs

Formula used: Weight × (Sun Gravity / Earth Gravity)

Mass (Invariant)

81.65 kg

Gravity Factor

27.9x

Weight Increase

+4,842 lbs

Celestial Body	Surface Gravity (m/s²)	Calculated Weight	Relative to Earth

Table 1: Comparison of gravitational forces and resulting weight across key celestial bodies.

Figure 1: Visual comparison of your weight on Earth versus the Sun.

What is "calculate your weight on the sun"?

To calculate your weight on the sun is to determine the force exerted on your body's mass by the massive gravitational field of the Sun. Unlike mass, which remains constant throughout the universe, weight is a variable force that depends entirely on the local acceleration due to gravity.

This calculation is popular among physics students, astronomers, and sci-fi enthusiasts who want to understand the sheer scale of our star. The Sun contains approximately 99.86% of the total mass of the solar system, resulting in a surface gravity that is nearly 28 times stronger than Earth's.

While it is impossible to actually stand on the Sun due to its extreme heat and gaseous nature, understanding how to calculate your weight on the sun provides a powerful perspective on the fundamental forces governing our solar system. It illustrates the drastic difference between terrestrial environments and stellar bodies.

Calculate Your Weight on the Sun Formula and Mathematical Explanation

The mathematics required to calculate your weight on the sun relies on Newton's Law of Universal Gravitation. The formula compares the surface gravity of the Earth to that of the Sun.

The Core Formula

Weight_sun = Weight_earth × (Gravity_sun / Gravity_earth)

Where the ratio (Gravity_sun / Gravity_earth) represents the gravitational multiplier.

Variable Definitions

Variable	Meaning	Standard Value	Unit
Weight_earth	Your current weight on Earth	Input Variable	kg or lbs
Gravity_earth	Acceleration due to gravity on Earth	9.807	m/s²
Gravity_sun	Acceleration due to gravity on the Sun	274.0	m/s²
Multiplier	Ratio of Sun's gravity to Earth's	~27.9	Dimensionless

Because 274.0 / 9.807 ≈ 27.94, you can roughly estimate that you would weigh about 28 times heavier on the Sun than you do on Earth.

Practical Examples (Real-World Use Cases)

To better understand the implications when you calculate your weight on the sun, let's look at two detailed examples using realistic numbers.

Example 1: An Average Adult

Input Weight: 180 lbs (approx. 81.6 kg)
Calculation: 180 × 27.94
Result: 5,029 lbs

Interpretation: An average adult standing on the "surface" of the Sun would feel as if they were carrying a large SUV on their back. The structural integrity of the human skeleton would fail instantly under this crushing weight.

Example 2: The Mars Rover (Perseverance)

Input Weight: 1,025 kg (approx. 2,260 lbs)
Calculation: 1,025 × 27.94
Result: 28,638 kg

Interpretation: Even a robustly engineered robotic rover designed for space travel would be flattened. This highlights why missions to the Sun (like the Parker Solar Probe) orbit the star rather than attempting to land.

How to Use This Calculator

Our tool is designed to be the most accurate way to calculate your weight on the sun. Follow these simple steps:

Enter Your Weight: Locate the input field labeled "Your Weight on Earth". Enter your current body weight.
Select Unit: Use the dropdown menu to choose between Pounds (lbs) or Kilograms (kg). The calculator automatically handles the unit conversion logic.
Review Results: The "Your Weight on the Sun" box will update instantly.
Analyze Data: Check the "Gravity Factor" to see exactly how many times heavier you are, and view the comparison table for other celestial context.
Visualize: Observe the chart to see the dramatic scale difference between your Earth weight and Solar weight.

Key Factors That Affect Solar Weight Calculations

When you calculate your weight on the sun, several physical and financial-analogous factors come into play. Understanding these ensures accuracy in your astrophysical models.

Photosphere Definition: The Sun is gas, so it has no solid surface. The calculations use the surface gravity at the photosphere (the visible surface).
Mass Constancy: Your mass does not change. If you are 80kg on Earth, you are 80kg on the Sun. Only the force (weight) changes.
Centrifugal Force: The Sun rotates. At its equator, the centrifugal force might slightly reduce effective weight, though the effect is negligible compared to the massive gravity.
Distance from Center: Gravity follows the inverse-square law. Being slightly higher in the Sun's atmosphere would reduce the calculated weight.
Variable Gravity: Unlike Earth, the Sun's density is not uniform, which can create micro-variations in gravitational pull depending on depth.
Instrumentation Precision: In scientific contexts, the precision of the value used for Earth's gravity (9.8 vs 9.81 vs 9.807) can alter the final result by several pounds.

Frequently Asked Questions (FAQ)

Would I be crushed if I stood on the Sun?

Yes. When you calculate your weight on the sun, you see that a human would weigh over 4,000 lbs. The human skeleton cannot support this load, and you would be crushed instantly by your own weight, even ignoring the extreme heat.

Does my mass change on the Sun?

No. Mass is the amount of matter in your body. Weight is the force of gravity acting on that mass. Your mass remains exactly the same on Earth, the Moon, and the Sun.

Why is the Sun's gravity so strong?

Gravity is directly proportional to mass. The Sun comprises 99.8% of the solar system's mass, creating a gravitational well deep enough to keep all planets in orbit.

How does this compare to Jupiter?

Jupiter is the largest planet, but its gravity is only about 2.4 times that of Earth. The Sun's gravity is over 10 times stronger than Jupiter's.

Is the calculation the same for objects like cars or buildings?

Yes. The ratio of ~27.9 applies to any object. A 2-ton car would effectively weigh nearly 56 tons on the Sun.

Can we land on the Sun?

No. The Sun has no solid surface to land on, and the temperatures exceed 5,500°C (9,900°F). Probes only orbit or pass through the outer atmosphere.

What is the exact gravity of the Sun used here?

We use the standard astrophysical value of 274.0 m/s², which is the equatorial surface gravity.

Why calculate your weight on the sun if we can't go there?

It is a fundamental exercise in comparative planetology. It helps visualize the magnitude of forces in our universe that are otherwise abstract numbers.

Related Tools and Internal Resources

Expand your understanding of cosmic forces with our other specialized calculators and articles:

Weight on the Moon Calculator – See how light you would feel on our lunar neighbor.
Mars Gravity Calculator – Calculate your weight for a potential future colonization mission.
Jupiter Weight Calculator – Understand the crushing gravity of the gas giant.
Space Survival Metrics – Financial and physical resource planning for space travel.
Astrophysical Mass Index – Deep dive into mass vs. weight in zero gravity.
Solar System Gravity Comparison – A comprehensive table of gravity across all planets.

// Constants defined as vars for compatibility var EARTH_GRAVITY = 9.807; var SUN_GRAVITY = 274.0; var GRAVITY_RATIO = SUN_GRAVITY / EARTH_GRAVITY; // Additional celestial bodies for the table var CELESTIAL_BODIES = [ { name: "Earth", gravity: 9.807 }, { name: "Moon", gravity: 1.62 }, { name: "Mars", gravity: 3.72 }, { name: "Jupiter", gravity: 24.79 }, { name: "Sun", gravity: 274.0 } ]; // Initialize on load window.onload = function() { calculateWeight(); }; function calculateWeight() { // Get Inputs var earthWeightInput = document.getElementById('earthWeight'); var unitSelect = document.getElementById('weightUnit'); var errorMsg = document.getElementById('earthWeightError'); var weight = parseFloat(earthWeightInput.value); var unit = unitSelect.value; // Validation if (isNaN(weight) || weight < 0 || earthWeightInput.value === "") { errorMsg.style.display = 'block'; // Clear results if invalid document.getElementById('resultValue').innerText = "—"; document.getElementById('massResult').innerText = "—"; document.getElementById('weightDiff').innerText = "—"; return; } else { errorMsg.style.display = 'none'; } // Calculations var sunWeight = weight * GRAVITY_RATIO; var diff = sunWeight – weight; // Mass calculation (approximate based on Earth weight) // If lbs, mass in slugs or just display kg equivalent // Common convention: if lbs, show mass in kg (weight / 2.20462) var massVal = (unit === 'lbs') ? (weight / 2.20462) : weight; // Update DOM updateText('resultValue', formatNumber(sunWeight) + ' ' + unit); updateText('gravityFactor', formatNumber(GRAVITY_RATIO, 2) + 'x'); updateText('weightDiff', '+' + formatNumber(diff) + ' ' + unit); updateText('massResult', formatNumber(massVal, 2) + ' kg'); // Update Table updateTable(weight, unit); // Draw Chart drawChart(weight, sunWeight, unit); } function updateText(id, text) { var el = document.getElementById(id); if (el) el.innerText = text; } function formatNumber(num, decimals) { if (decimals === undefined) decimals = 0; return num.toLocaleString('en-US', { minimumFractionDigits: decimals, maximumFractionDigits: decimals }); } function resetCalculator() { document.getElementById('earthWeight').value = "180"; document.getElementById('weightUnit').value = "lbs"; calculateWeight(); } function copyResults() { var weight = document.getElementById('earthWeight').value; var unit = document.getElementById('weightUnit').value; var result = document.getElementById('resultValue').innerText; var factor = document.getElementById('gravityFactor').innerText; var textToCopy = "Weight on Sun Calculator Results:\n" + "Input Weight: " + weight + " " + unit + "\n" + "Result: " + result + "\n" + "Gravity Factor: " + factor + "\n" + "Calculated via Financial & Physics Tools Inc."; var textArea = document.createElement("textarea"); textArea.value = textToCopy; document.body.appendChild(textArea); textArea.select(); try { document.execCommand('copy'); var btn = document.querySelector('.btn-copy'); var originalText = btn.innerText; btn.innerText = "Copied!"; setTimeout(function() { btn.innerText = originalText; }, 2000); } catch (err) { console.error('Fallback: Oops, unable to copy', err); } document.body.removeChild(textArea); } function updateTable(userWeight, unit) { var tbody = document.getElementById('comparisonTableBody'); tbody.innerHTML = ""; // Clear existing for (var i = 0; i < CELESTIAL_BODIES.length; i++) { var body = CELESTIAL_BODIES[i]; var ratio = body.gravity / EARTH_GRAVITY; var calcWeight = userWeight * ratio; var row = "" + "" + body.name + "" + "" + body.gravity + "" + "" + formatNumber(calcWeight, 1) + " " + unit + "" + "" + formatNumber(ratio, 2) + "x" + ""; tbody.innerHTML += row; } } function drawChart(earthVal, sunVal, unit) { var canvas = document.getElementById('weightChart'); var ctx = canvas.getContext('2d'); // Handle High DPI var dpr = window.devicePixelRatio || 1; var rect = canvas.getBoundingClientRect(); canvas.width = rect.width * dpr; canvas.height = rect.height * dpr; ctx.scale(dpr, dpr); var width = rect.width; var height = rect.height; // Clear ctx.clearRect(0, 0, width, height); // Settings var padding = 50; var chartHeight = height – (padding * 2); var chartWidth = width – (padding * 2); var maxVal = sunVal * 1.1; // Add 10% headroom // Bar Settings var barWidth = chartWidth / 5; // Narrow bars var spacing = chartWidth / 3; // Draw Axis ctx.beginPath(); ctx.moveTo(padding, padding); ctx.lineTo(padding, height – padding); ctx.lineTo(width – padding, height – padding); ctx.strokeStyle = '#ccc'; ctx.stroke(); // Data Series var data = [ { label: 'Earth', value: earthVal, color: '#28a745' }, { label: 'Sun', value: sunVal, color: '#004a99' } ]; for (var i = 0; i < data.length; i++) { var item = data[i]; var barHeight = (item.value / maxVal) * chartHeight; var x = padding + (spacing * (i + 1)) – (barWidth / 2) – (spacing/2); var y = height – padding – barHeight; // Draw Bar ctx.fillStyle = item.color; ctx.fillRect(x, y, barWidth, barHeight); // Draw Label (Name) ctx.fillStyle = '#333'; ctx.font = 'bold 14px sans-serif'; ctx.textAlign = 'center'; ctx.fillText(item.label, x + (barWidth / 2), height – padding + 20); // Draw Value (Top of bar) ctx.fillStyle = '#666'; ctx.font = '12px sans-serif'; ctx.fillText(formatNumber(item.value, 0) + ' ' + unit, x + (barWidth / 2), y – 10); } // Legend ctx.textAlign = 'left'; ctx.fillStyle = '#666'; ctx.font = 'italic 12px sans-serif'; ctx.fillText("Scale: Linear comparison of weight", padding, padding – 10); } // Resize listener for chart window.addEventListener('resize', function() { calculateWeight(); });