Describing Fields

Learning Objectives

  • Gravitational fields
  • Gravitational potential energy
  • Gravitational potential
  • Electrostatic fields
  • Electric potential 
  • Field lines
  • Equipotential surfaces
  • Representing sources of mass and charge, lines of electric and gravitational force, and field patterns using an appropriate symbolism
  • Mapping fields using potential
  • Describing the connection between equipotential surfaces and field lines
  • Describe field patterns where sources are masses or charges.

  • Describe the connection between equipotential surfaces and field lines.

  • Understand the concept of electric and gravitational potential

Field in General

Field is a region in which each point is affected by a force. In another world, field describes the impact produced by a massive body. For example, objects fall to the ground because they are affected by the force of earth's gravitational field, electron accelerates in a battery because they are affected by the force of electric field.

Gravitational Field

  • The gravitational field is the gravitational force per unit mass that would be exerted on a small mass at that point
  • It explains the influences that a massive body extends into the space around itself.

Gravitational Potential Energy 

  • The gravitational potential energy of two bodies is the work that was done in bringing the bodies to their present position from when they were infinitely far apart.

Gravitational Potential

  • The gravitational potential at a point P in a gravitational field is the work done per unit mass in bringing a small point mass m from infinity to point P.

Electric Field

Electric Field Line

  • "Like repel and opposite attract," meaning that opposite charges attractive each other while same charges repel each other.
  • Opposite charge radiates outward and negative charge radiates inward.
  • Charge density is represented the number of field lines.

Field line between two same charges

Field line between two oppositely charged particles

Electric Potential

Equipotential Surface

  • An equipotential surface consists of those points that have the same potential.
  • In a graph showing the variation with distance of the potential, the slope (gradient) of the graph is the magnitude of the field strength.This applies to both gravitational and electric fields.

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