|
§ a field of force surrounding a
charged body or associated with a fluctuating magnetic field, with which
charged particles interact
§ the electric force per unit
charge
§ Electric field strength is a
vector quantity; it has both magnitude and direction.
§ The electric field is radially
outward from a positive charge and radially in toward a negative point
charge.
§ This is how electric field looks
like.
§ To solve for electric field,
consider the given formula:
Electric field = Force/Charge or E = F/q
Standard Metric Unit: Newton/Coulomb (N/C)
Remember:
1. All
charged objects have electric fields around them.
2. The
electric force on a charged body is exerted by the electric field created
by
other
charged bodies.
The field around a charged
conductor
A
conductor is in electrostatic equilibrium when the charge distribution (the
way the charge is distributed over the conductor) is fixed. Basically, when
you charge a conductor the charge spreads itself out. At equilibrium, the
charge and electric field follow these guidelines:
§ the excess charge lies only at
the surface of the conductor
§ the electric field is zero within
the solid part of the conductor
§ the electric field at the surface
of the conductor is perpendicular to the surface
§ charge accumulates, and the field
is strongest, on pointy parts of the conductor
Microsoft® Encarta® 2009. © 1993-2008 Microsoft Corporation.
|
nose bleed...
TumugonBurahinSir!!!!!!! tamad gad!!!!!!
TumugonBurahin