## Visualizing the Gravitational Pull of the Planets

This post is by Nicholas LePan from Visual Capitalist

# Visualizing the Gravitational Pull of the Planets

Gravity is one the basic forces in the universe. Every object out there exerts a gravitational influence on every other object, but to what degree?

The gravity of the sun keeps all the planets in orbit in our solar system. However, each planet, moon and asteroid have their own gravitational pull defined by their density, size, mass, and proximity to other celestial bodies.

Dr. James O’Donoghue, a Planetary Astronomer at JAXA (Japan Aerospace Exploration Agency) created an animation that simplifies this concept by animating the time it takes a ball to drop from 1,000 meters to the surface of each planet and the Earth’s moon, assuming no air resistance, to better visualize the gravitational pull of the planets.

## Sink like a Stone or Float like a Feather

Now, if you were hypothetically landing your spacecraft on a strange planet, you would want to know your rate of descent. Would you float like a feather or sink like a stone?

It is a planet’s size, mass, and density that determines how strong its gravitational pull is, or, how quick or slow you will approach the surface.

Mass (1024kg)Diameter (km)Density (kg/m3)Gravity (m/s2)Escape Velocity (km/s)
Mercury0.334,8795,4273.74.3
Venus4.8712,1045,2438.910.4
Earth5.9712,7565,5149.811.2
Moon0.0733,4753,3401.62.4
Mars0.6426,7923,9333.75.0
Jupiter1,898142,9841,32623.159.5
Saturn568120,5366879.035.5