q2
A thin spherical conducting shell of radius R has a charge q. Another charge Q is placed at the centre of the shell. The electrostatic potential at a point P a distance R/2 from the centre of the shell is
31
Aug
A thin spherical conducting shell of radius R has a charge q. Another charge Q is placed at the centre of the shell. The electrostatic potential at a point P a distance R/2 from the centre of the shell is ……….. Qn respectively. i. Find the charge induced at surface A. ii. Find the charge [...]
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……….. Qn respectively. i. Find the charge induced at surface A. ii. Find the charge induced at surface B. iii. If the left conductor is earthed ,
find the magnitude of charge flowing from plate to earth. ,
find the magnitude of charge flowing from plate to earth. iv. If any conductor is earthed ,
q2 ,
There are n large parallel plate conductors carrying charge Q1 ,
There are n large parallel plate conductors carrying charge Q1, Q2 ,……….. Qn respectively. i. Find the charge induced at surface A. ii. Find the charge induced at surface B. iii. If the left conductor is earthed, find the magnitude of charge flowing from plate to earth. iv. If any conductor is earthed, find the magnitude of charge flowing from plate to earth.
31
Aug
There are n large parallel plate conductors carrying charge Q1, Q2 ,……….. Qn respectively. i. Find the charge induced at surface A. ii. Find the charge induced at surface B. iii. If the left conductor is earthed, find the magnitude of charge flowing from plate to earth. iv. If any conductor is earthed, find the [...]
Tags:
……….. Qn respectively. i. Find the charge induced at surface A. ii. Find the charge induced at surface B. iii. If the left conductor is earthed ,
find the magnitude of charge flowing from plate to earth. ,
find the magnitude of charge flowing from plate to earth. iv. If any conductor is earthed ,
q2 ,
There are n large parallel plate conductors carrying charge Q1 ,
Two identical He-filled spherical balloons each carrying a charge q are tied to a weight W with strings and float in equlibrium, as shown in figure. (i) Find the magnitude of q, assuming that the charge on each balloon acts as if it were concentrated at the center. (ii) Find the volume of each balloon. Take the density of He as ρHe and the density of air as ρa . Ignore the weight of the unfilled balloons .
30
Aug
Two identical He-filled spherical balloons each carrying a charge q are tied to a weight W with strings and float in equlibrium, as shown in figure. (i) Find the magnitude of q, assuming that the charge on each balloon acts as if it were concentrated at the center. (ii) Find the volume of each balloon. [...]
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and q3 ,
as shown in figure. (i) Find the magnitude of q ,
at the vertices of n equilateral triangle of side l. what is the force on a charge Q placed at the centroid of the triangle? ,
Consider three charges q1 ,
each equal to q ,
q2 ,
Two identical He-filled spherical balloons each carrying a charge q are tied to a weight W with strings and float in equlibrium ,
Point charge are placed at the verticas of a squre of side a as shown in fig. What should be the sign of charge q and magnitude of the ratio |q/Q| so that (i) net force on each Q is zero? (ii) net force on each q is zero? Is it possible that the entire system could be in electrostatic equilibrium?
30
Aug
Point charge are placed at the verticas of a squre of side a as shown in fig. What should be the sign of charge q and magnitude of the ratio |q/Q| so that (i) net force on each Q is zero? (ii) net force on each q is zero? Is it possible that the entire [...]
Consider three charges q1,q2, and q3, each equal to q, at the vertices of n equilateral triangle of side l. what is the force on a charge Q placed at the centroid of the triangle?
30
Aug
Consider three charges q1,q2, and q3, each equal to q, at the vertices of n equilateral triangle of side l. what is the force on a charge Q placed at the centroid of the triangle? and q3 at the vertices of n equilateral triangle of side l. what is the force on a charge Q [...]