Figure above shows a closed Gaussian surface in the space of a cube of edge length 3.0m. There exists an electric field given by `vec E= [(2.0x+4.0)i +8.0j +3.0k]N//C`, where x is in metres, in the region in which it lies. The net charge in coulumbs enclosed by the cube is equal to

In the given electric field vecE = [alpha(d+x)hati + E_0hatj] NC^(-1) , where alpha = 1NC^(-1) hypothetical closed surface is taken as shown in figure . The total charge enclosed within the close surface is

A hollow cylindrical box of length 0.5m and area of cross-section 20cm^(2) is placed in a three dimensional coordinate system as shown in the figure. The electric field in the region is given by vec E = 20 x hat i , where E is NC^(-1) and x is in meters, Find (i) Net flux through the cylinder. (ii) Charge enclosed in the cylinder.

Electric field in a region is given by vec( E) = - 4xhat(i) + 6yhat(j) . Then find the charge enclosed in the cube of side 1m oriented as shown in the diagram

Find the area of the region enclosed by the given curves . y=x^(3)+3, y=0 , x=-1, x=2

A cube of side a is placed in a uniform electric field E = E_(0) hat(i) + E_(0) hat(j) + E_(0) k . Total electric flux passing through the cube would be

If unifrom electric filed vecE = E_(0)hati + 2E_(0) hatj , where E_(0) is a constant, exists in a region of space and at (0, 0) the electric potential V is zero, then the potential at (x_(0),0) will be.

A solid insulating sphere of radius a carries a net positive charge 3Q , uniformly distributed throughout its volume. Concentric with this sphere is a conducting spherical shell with inner radius b and outer radius c and having a net charge -Q, as shown in figure a. Consider a spherical Gaussian surface of radius rgtc, the net charge enclosed by this surface is ............. b. The direction of the electric field rgtc is ............. c. The electric field at rgtc is ............... . d. The electric field in the region with radius r, which cgtrgtb, is ............... e. Consider a spherical Gaussian surface of radius r, where cgtrgtb , the net charge enclosed by this surface is ................ . f. Consider a spherical Gaussian surface of radius r, where bgtrgta , the net charge enclosed by this surface is ................. . g. The electric field in the region bgtrgta is ................ . h. Consider a spherical Gaussian surface of radius rlta . Find an expression for the net charge Q(r) enclosed by this surface as a function of r. Note that the charge inside the surface is less than 3Q. i. The electric field in the region rlta is ................. . j. The charge on the inner surface of the conducting shell is .......... . k. The charge on the outer surface of the conducting shell is .............. . l. Make a plot of the magnitude of the electric field versus r.

A cube has sides of length L = 0.2 m. It is placed with one corner at the origin as shown in figure. The electric field is uniform and given by E= (2.5 N//C) hati - (4.2 N//C) hatj . Find the electric flux through the entire cube.

If electric field around a surface is given by |vec(E)|=(Q_(in))/(epsilon_0|A|) where 'A' is the normal area of surface and Q_(in) is the charge enclosed by the surface. This relation of gauss's law is valid when

Electric field in a region is given by vec(E)=-4xhat(i)+6yhat(j) . The charge enclosed in the cube of side 1 m oriented as shown in the diagram is given by alpha in_(0) . Find the value of alpha .