gravity (near-earth)

The gravitational force exerted by the earth on an object near the earth's surface.

The Force of Gravity Near Earth's Surface

Defining "Near"

Suppose an object of mass m is at a height h above the surface of the earth. Assume that the earth is spherical with radius R_E. Working in spherical coordinates with the origin at the center of the earth, the gravitational force on the object from the earth will be:

A Taylor expansion gives:

Thus, for h/R_E << 1, the gravitational force from the earth on the object will be essentially independent on altitude above the earth's surface and will have a magnitude equal to:

Defining g

The above expression is of the form:

if we take:

Gravitational Potential Energy Near Earth's Surface

Near the earth's surface, if we assume coordinates with the +y direction pointing upward, the force of gravity can be written:

Since the "natural" ground level varies depending upon the specific situation, it is customary to specify the coordinate system such that:

The gravitational potential energy at any other height y can then be found by choosing a path for the work integral that is perfectly vertical, such that:

For an object in vertical freefall (no horizontal motion) the associated potential energy curve would then be:

For movement under pure near-earth gravity, then, there is no equilibrium point. At least one other force, such as a normal force, tension, etc., must be present to produce equilibrium.

Example Problems involving Near-earth Gravity

Example Problems involving Gravitational Force

Example Problems involving Gravitational Potential Energy

• Page:
  Bungee Jump — Bungee jumps involve elastic and gravitational potential energy.

  • elastic_potential_energy
  • gravitational_potential_energy
  • example_problem
  • constant_energy
• Page:
  Give it a Kick — A standard example from work and energy.

  • gravitational_potential_energy
  • non-conservative_work
  • example_problem
• Page:
  Bungee Jumping for the Brave — A more complicated version of the Bungee Jump problem.

  • constant_energy
  • example_problem
  • elastic_potential_energy
  • gravitational_potential_energy
• Page:
  Roller Coaster Diet? — A good roller coaster uses significant turning accelerations to produce large swings in the rider's apparent weight.

  • constant_energy
  • apparent_weight
  • gravitational_potential_energy
  • example_problem
  • circular_motion
  • dynamics
  • centripetal_acceleration
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  Path Independence — An illustration of the path independence of gravitational work.

  • gravitational_potential_energy
  • example_problem
  • inclined_plane
  • constant_acceleration
  • kinematics
  • dynamics
  • constant_energy
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  Mass on a Vertical Spring — Another case of Simple Harmonic Motion, this time with gravity (near-earth) thrown in.

  • example_problem
  • gravitational_potential_energy
  • 1d_motion
  • multi-concept_problems
  • shm
  • spring