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SfC Home > Physics > Gravitation >
by Ron Kurtus
You can find the gravitational force between two objects by applying the Universal Gravitation Equation, provided you know the mass of each object and their separation.
With this equation, you can make calculations to determine such things as the force between the Earth and the Moon, as well as between two large masses.
Questions you may have include:
- What is the Universal Gravitational Equation?
- What is the force of attraction between the Earth and the Moon?
- What is the force of attraction between two other objects?
This lesson will answer those questions. Useful tool: Units Conversion
The Universal Gravitation Equation is:
F = GMm/R2
where
- F is the force of attraction between two objects in newtons (N)
- G is the Universal Gravitational Constant = 6.674*10−11 N-m2/kg2
- M and m are the masses of the two objects in kilograms (kg)
- R is the separation in meters (m) between the objects, as measured from their centers of mass
Force attracting Earth and Moon
To calculate the gravitational force pulling the Earth and Moon together, you need to know their separation and the mass of each object.
Distance
The Earth and Moon are approximately an average of 3.844*105 kilometers apart, center to center.
(Note that the orbit of the Moon around the Earth is not a true circle, so an average separation is used. This also means that the force of attraction varies.)
Since the units of G are in N-m2/kg2, you need to convert the units of R to meters.
R = 3.844*108 m
Mass of each object
Let M be the mass of the Earth and m the mass of the Moon.
M = 5.974*1024 kg
m = 7.349*1022 kg
Force of attraction
Thus, the force of attraction between the Earth and Moon is:
F = GMm/R2
F = (6.674*10−11 N-m2/kg2)(5.974*1024 kg)(7.349*1022 kg)/(3.844*108 m)2
F = (2.930*1037 N-m2)/(1.478*1017 m2)
F = 1.982*1020 N
Note: Notice how all the units, except N, canceled out.
Attraction between Earth and Moon
Result of force
This considerable force is what holds the Moon in orbit around the Earth and prevents it from flying off into space. Inward force of gravitation equals the outward centrifugal force from the motion of the Moon.
(See Circular Planetary Orbits for more information.)
Also, the gravitational force from the Moon pulls the oceans toward it, causing the rising and falling tides, according to the Moon's position.
(See Gravitation Causes Tides on Earth for more information.)
Force attracting large objects
In the same manner, you can calculate the gravitational force attracting two large objects.
Suppose you had an object with mass of 100 kg, another with a mass of 200 kg, and the separation of their centers was 2 meters.
F = GMm/R2
F = (6.674*10−11 N-m2/kg2)(100 kg)(200 kg)/(2 m)2
F = 33370*10−11 N
Simplify:
F = 3.3*10−7 N
That is a very small force attracting the objects together. However, even a smaller force was measured in the Cavendish Experiment to Measure Gravitational Constant.
Summary
You can apply the Universal Gravitation Equation to show the force of attraction between two objects, such as the force between the Earth and the Moon, as well as between two large masses.
Think clearly and logically
Resources and references
Ron Kurtus' Credentials
Websites
Converting units of mass to equivalent forces on Earth - Wikipedia
Weight -
Mass -
Kilogram -
Mass and Weight: the Gravity Force - Engineering Toolbox
Gravitation Resources
Books
(Notice: The School for Champions may earn commissions from book purchases)
Top-rated books on Gravity
Top-rated books on Gravitation
Questions and comments
Do you have any questions, comments, or opinions on this subject? If so, send an email with your feedback. I will try to get back to you as soon as possible.
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