Find out flux through the given Gaussian surface.

Find out the flux through the curved surface of a hemisphere of radius R if it is placed in a uniform electric field E as shown in figure

An infinite, uniformly charged sheet with surface charge density sigma cuts through a spherical Gaussian surface of radius R at a distance X from its center, as shown in the figure. The electric flux Phi through the Gaussian surface is .

A point charge +q is placed at the centre of curvature of a hemisphere. Find flux through the hemispherical surface.

S_1 : When a positively charged particle is released in an electric field , in its subsequent motion,it may or may not move along the electric field line passing through the point it has been released. S_2 : In electrostatic, conductors are always equipotential surfaces. S_3 : The flux through a closed Gaussian surface is non-zero. The electric field at some point on the Gaussian surface may be zero.

A hollow half cylinder surface of radius R and length l is placed in a uniform electric field vecE . Electric field is acting perpendicular on the plane ABCD. Find the flux through the curved surface of the hollow cylindrical surface

Find flux through the hemispherical surface

If net flux through a Gaussian surface is zero, then find whether the following statements are correct or not. The net charge inside the surface is zero.

The electric flux through a Gaussian surface that encloses three charges given by q_(1) = -14nC, q_(2) = 78.85 nC, q_(3)= -56nC

A point charge Q is kept at point 'A' the flux through the inclined surface of cone is (3Q)/(5epsilon_(0)) . Now another charge -Q is also placed at point B . If net flux through the inclined surface (nQ)/(5epsilon_(0)) is Find n .

Which of the following is true for electric-flux through a Gaussian surface ?