# How to Calculate the Distance Between the Center of Mass and the Center Of Gravity

Calculate your distance between the center of mass and the center’s center using the equation: The equation is written as: Distance = mass x acceleration, in meters.

The formula also tells us how much mass a given object weighs: mass x velocity x acceleration = mass In kg.

If you have a big rocket, the mass will be in the order of 2.5 to 3.5 times that of the average Earth-Moon distance.

But, for a small object, the difference in mass will make a big difference in the distance between you and the nearest celestial body: 1.4x mass = 1.5x distance in kilometers.

And if you have an orbiting satellite, its mass is only about 1.3 times the Earth-Sun distance.

That’s not a huge difference.

So if you need to figure out your distance, the formula gives you a good start.

To get a better idea of how much the gravitational force of a given body can affect you, try this simple equation: 1/4 of a centimeter = 1/2 of a meter.

And then add a little more and you get: 1 x 1 x 0.7 x 0, or 1 x (1 x 1) x 0., or 1.9 x (0.7) x (the gravitational constant).

For more on how to calculate the distance, check out this post.

If the equation seems too complex, try the equation from this website.

It’s more intuitive: 2 x (2 x 1.8) x 3.2 x (3 x 1).

The second form is easier to remember.

But the equation doesn’t really have a meaning in astronomy, because it only uses mass to give you a value.

If your planet is moving slowly and your satellite is orbiting far away, the equation will be wrong.

But if your satellite isn’t moving at all, the gravitational constant will give you the right answer.