THE UNIVERSITY OF BRITISH COLUMBIA
Physics 122
Assignment #
3:
ELECTRIC CHARGE
Wed. 16 Jan. 2002 - finish by Fri. 25 Jan.
- 1.
- TRIANGLE of CHARGES:
Derive an expression for the work required
to bring four charges of equal magnitude but different signs (as shown)
together into an equilateral triangle of side a
with one charge at the centre of the triangle.
(Initially the charges are all infinitely far apart.)
- 2.
- LINES of CHARGE:
An infinite line of charge with linear charge density
C/m lies along the x-axis
(y=0, z=0 and
).
A second infinite line of charge with exactly the opposite
charge density lies along the
z
axis. What are the x, y and z components of the resultant
electric field at the point
(x,y,z) =
(4,4,4) m?
- 3.
- PLANE of CHARGE:
A large flat non-conducting surface
carries a uniform charge density
C/m2.
A small circular hole has been cut out of the middle of this
sheet of charge, as shown on the diagram.
Ignoring ``fringing'' of the field lines
around all distant ``outside'' edges,
calculate the electric field at point P a distance
z =
1.0 m up from the centre of the hole along its
axis. The radius of the hole is
R =
0.4 m.
- 4.
- EXTRA ELECTRONS:
The Earth can be regarded as a spherical conductor from the
point of view of free electrons. How many excess electrons
could the Earth hold?
(Assume that only electrostatic and gravitational forces are involved.)
Jess H. Brewer
2002-01-16