Katsmed23
Feb25-10, 08:28 PM
1. The problem statement, all variables and given/known data
A thin cylindrical shell of radius R1 = 5.0 cm is surrounded by a second cylindrical shell of radius R2 = 9.0 cm, as in the figure. Both cylinders are 5.8 m long and the inner one carries a total charge of Q1 = +4.2 µC and the outer one carries a total charge of Q2 = -2.4 µC. (Assume the positive direction is away from the axis.)
a) r = 1.5 cm
N/C
(b) r = 5.5 cm
N/C
(c) r = 11.5 cm
N/C
2. Relevant equations
E *Da = Qenclosed/Epsilon
point charge = 1/4pi epsilon * Q/r^2
3. The attempt at a solution
a) radius is smaller than the radius of the first shell, so it's EF = 0
b) i've tried using E = Q / 4pi *epsilon *r^2, but i keep getting the wrong answer = 12.4e6 N/C
c) I think I should add the charges together (-2.4 + 4.2 = 2uC) and use the above equation, but I am at a loss.
I keep trying to find the answers to these last 2, but can't seem to get it right.
A thin cylindrical shell of radius R1 = 5.0 cm is surrounded by a second cylindrical shell of radius R2 = 9.0 cm, as in the figure. Both cylinders are 5.8 m long and the inner one carries a total charge of Q1 = +4.2 µC and the outer one carries a total charge of Q2 = -2.4 µC. (Assume the positive direction is away from the axis.)
a) r = 1.5 cm
N/C
(b) r = 5.5 cm
N/C
(c) r = 11.5 cm
N/C
2. Relevant equations
E *Da = Qenclosed/Epsilon
point charge = 1/4pi epsilon * Q/r^2
3. The attempt at a solution
a) radius is smaller than the radius of the first shell, so it's EF = 0
b) i've tried using E = Q / 4pi *epsilon *r^2, but i keep getting the wrong answer = 12.4e6 N/C
c) I think I should add the charges together (-2.4 + 4.2 = 2uC) and use the above equation, but I am at a loss.
I keep trying to find the answers to these last 2, but can't seem to get it right.