A Gaussian surface S encloses two charges `q_(1)= q and q_(2) = -q`the field at p is
where `vecE_(1), vecE_(2)and vecE_(3)` are the field contributed by `q_(1),q_(2)and q_(3)at` P respectively.

In figure, the charges on C_(1),C_(2) , and C_(3) , are Q_(1), Q_(2) , and Q_(3) , respectively. .

A charge Q located at a point vec r is in equilibrium under the combined field of three charges q_(1), q_(2) and q_(3) . If the charges q_(1) and q_(2) are located at point vec r_(1) and vec r_(2) respectively, find the direction of the force on Q due to q_(3) in terms of q_(1),(q_2), vec r_(1) vec r_(2) , and vec(r) .

A charge q_(1) exerts some force on a second charge q_(2) If a third charge q_(3) is brought near q_(2) , then the force exterted by q_(1) on q_(2)

A point charge Q is placed at origin. Let vecE_(A), vec E_(B), and vecE_(C) be the electirc field at three points A (1,2,3), B (1,1,1), and C(2,2,2) due to charge Q . Then

Two nonconducting infinite planes sheets having charges Q and 2Q are placed parallel to each other as shown in figure. The charge distribution on the four faces of the two plates is also shown. The electric field intensities at three points 1, 2, and 3 are vecE_1, vecE_2, and vecE_3 , respectively. Then the magnitudes of vecE_1 , vecE_2, and vecE_3 are, respectively (surface area of plates ) :

An insulating spherical shell of uniform surface charge density is cut into two parts and place at a distance d apart as shown in figure. vecE_p and vecE_Q denote the electric fields at P and Q, respectively. As d (i.e. PQ) rarr oo

Looking at the vanous electric lines of forces between charges Q_(1) and Q_(2) find the value of (Q_(1))/(Q_(2))

Looking at the various electric lines of forces between charges Q_(1) and Q_(2) , find the value of (Q_(1))/(Q_(2))

Two electric charges q_(1) = q and q_(2) = -2q are placed at a distance l = 6a apart. Find the locus of points in the plane of the charges where the field potential is zero

Charges q_(1) , q_(2) and q_(3) are placed on capacitors of capacitance C_(1) , C_(2) and C_(3) , respectively, arranged in series as shown. Switch S is there closed. What are the final charges q'_(1) , q'_(2) and q'_(3) on the capacitors? Given q_(1)=30muC , q_(2)=muC , q_(3)=10muC , C_(1)=10muF , C_(2)=20muF , C_(3)=30muF and epsilon=12"volt"