If the net electric flux through a closed surface is zero, then

If the inward and the outward electric flux through a closed surface be phi _(1) and phi _(2) , the charge inside the closed surface is

According to Guss's theorem in CGS system, the total electric flux linked with a closed surface is equal to __________ times the total charge lying within the surface . [Fill in the blank]

If a charge exists outside a closed surface, the net electric flux linked with the closed surface will be _____________. [Fill in the blank]

Two charges 2Q and -Q are placed at the points (a,0,0) and (4a,0,0) respectively. With the two charges situated at the cenres, two spheres of radii 2a and 8a are considered. What is the ratio of electric flux through the surfaces of the two spheres?

Careful measurement of the electric field at the surface of a black box indicates that the net outward flux through the surface of the box is 8.0 xx 10^(3)N*m^(2)*C^(-1) . (a) What is the net charge inside the box? (b) If the net outward flux through the surface of the box where zero, could you conclude that there where no charges inside the box? Why or why not ?

Careful measurement of the electric field at the surface of a black box indicates that the net outward flux through the surface ofthe box is 8.0x10^3Nm^2//C . If the net outward flux through the surface of the box were zero, could you conclude that there were nd charges inside the box ? Why or why not ?

In a region, the intensity of an electric field is given by vecE=2hati+3hatj+hatk in NC^(-1) . The electric flux through a surface vecS=10hatim^(2) in the region is

A charge q is placed at one corner of cube. The elctric flux through any of the three faces adjacent of the charge is zero. The flux through any one of the other three faces is

Due to the presence of a charge at the centre of a sphere of radius 10 cm, the electric flux passing through the surface of the sphere is -6xx10^(3)N.m^(2).C^(-1) . (i) What is the magnitude of charge inside the sphere? (ii) If a concentric spherical Gaussian surface with a radius double that of that of the sphere is taken, what will be the amount of electric flux now passing through this surface?

A positive charge Q is situated at the centre of cube. The electric flux through any face of the cube is (in SI units)