Gravitational Forces and Motion Concepts

Astrobiology

Space missions

Universal gravitation

Physics experiments

Nikola Tesla

Isaac Newton

Galileo Galilei

Albert Einstein

An object in motion stays in motion unless acted upon by an external force

Every action has an equal and opposite reaction

Gravitational force is proportional to mass

Force equals mass times acceleration

Gravitational force is independent of mass

Gravitational force decreases with increasing mass

Gravitational force is inversely proportional to mass

Gravitational force increases with increasing mass

Gravitational force decreases with distance

Gravitational force is independent of distance

Gravitational force is inversely proportional to the square of the distance

Gravitational force increases with distance

6.67 x 10^9 N(m/kg)^2

6.67 x 10^-9 N(m/kg)^2

6.67 x 10^-11 N(m/kg)^2

6.67 x 10^11 N(m/kg)^2

The sum of the masses

The distance between the centers of the two masses

The gravitational constant

The radius of one of the masses

It remains the same

It doubles

It is halved

It is quartered

The Earth's mass is too small

The Earth repels the Sun

The Sun's gravity is too weak

The Earth's velocity keeps it in orbit

The masses of the objects are too small

The gravitational constant is too large

The objects are moving too fast

The objects are too far apart