A LevelPhysicsCIERevision Notes13. Gravitational Fields13.2 Gravitational Potential13.2.1 Gravitational Potential

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Gravitational Potential (CIE A Level Physics)

Revision Note

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Gravitational Potential

  • The gravitational potential energy (G.P.E) is the energy an object has when lifted off the ground given by the familiar equation:

G.P.E = mgΔh

  • The G.P.E on the surface of the Earth is taken to be 0
    • This means work is done to lift the object

  • However, outside the Earth’s surface, G.P.E can be defined as:

The energy an object possess due to its position in a gravitational field

  • The gravitational potential at a point is the gravitational potential energy per unit mass at that point
  • Therefore, the gravitational potential is defined as:

The work done per unit mass in bringing a test mass from infinity to a defined point

Calculating Gravitational Potential

  • The equation for gravitational potential ɸ is defined by the mass M and distance r:

Calculating Gravitational Potential RN equation 1

  • Where:
    • ɸ = gravitational potential (J kg-1)
    • G = Newton’s gravitational constant
    • M = mass of the body producing the gravitational field (kg)
    • r = distance from the centre of the mass to the point mass (m)

  • The gravitational potential is negative near an isolated mass, such as a planet, because the potential when r is at infinity is defined as 0
  • Gravitational forces are always attractive so as r decreases, positive work is done by the mass when moving from infinity to that point
    • When a mass is closer to a planet, its gravitational potential becomes smaller (more negative)
    • As a mass moves away from a planet, its gravitational potential becomes larger (less negative) until it reaches 0 at infinity

  • This means when the distance (r) becomes very large, the gravitational force tends rapidly towards 0 at a point further away from a planet

Gravitational potential diagram, downloadable AS & A Level Physics revision notes

Gravitational potential increases and decreases depending on whether the object is travelling towards or against the field lines from infinity

Worked example

A planet has a diameter of 7600 km and a mass of 3.5 × 1023 kg. A rock of mass 528 kg accelerates towards the planet from infinity.At a distance of 400 km above the planet’s surface, calculate the gravitational potential of the rock.

Step 1:            Write the gravitational potential equation

Calculating Gravitational Potential RN equation 1

Step 2:            Determine the value of r

r is the distance from the centre of the planet

Radius of the planet = planet diameter ÷ 2 = 7600 ÷ 2  = 3800 km

r = 3800 + 400 = 4200 km = 4.2 × 106 m

Step 3:            Substitute in values

Calculating Gravitational Potential Worked Examlpe equation 1

Examiner Tip

Remember to keep the negative sign in your solution for gravitational potential. However, if you’re asked for the ‘change in’ gravitational potential, no negative sign should be included since you are finding a difference in values (between 0 at infinity and the gravitational potential from your calculation).

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    Katie M

    Author: Katie M

    Expertise: Physics

    Katie has always been passionate about the sciences, and completed a degree in Astrophysics at Sheffield University. She decided that she wanted to inspire other young people, so moved to Bristol to complete a PGCE in Secondary Science. She particularly loves creating fun and absorbing materials to help students achieve their exam potential.