In the rectangle of the figure below, the sides have lengths 4.9 cm and 15 cm, q

ID: 1367231 • Letter: I

Question

In the rectangle of the figure below, the sides have lengths 4.9 cm and 15 cm, q1 = 5.3 C, and q2 = +2.0 C. Take V = 0 at infinity.

(a) What is the electric potential at corner A?

(b) What is the electric potential at corner B?

(d) Does this work increase or decrease the electric energy of the three-charge system?

increase decrease no change

e) Is more, less, or the same work required if q3 is moved along a path inside the rectangle but not on a diagonal?

(f) Is more, less, or the same work required if q3 is moved along a path outside the rectangle?

electric potential due to a charge q at a distance of r is given by k*q/r

where k=9*10^9

part a:

at corner A, electric potential=(k*q1/0.15)+(k*q2/0.049)

=(9*10^9*(-5.3*10^(-6))/0.15)+(9*10^9*2*10^(-6)/0.049)

=49346.93 volts

part b:

at corner B, electric potential=(k*q1/0.049)+(k*q2/0.15)

=(9*10^9*(-5.3*10^(-6))/0.049)+(9*10^9*2*10^(-6)/0.15)

=-853469.38 volts

part c:

work required to move from B to A=charge *(potential at A-potential at B)

=3*10^(-6)*(49346.93-(-853469.38))=2.71 J

part d:

yes it increases the energy of the three charge system as work is added to the system for moving the charge.

e)as electric field is a conservative field, work done does not depend upon the path followed.

hence same work will be required as before.

f)as electric field is a conservative field, work done does not depend upon the path followed.

hence same work will be required as before.