Why should electrostatic field be zero inside a conductor ?

The dimensions of an atom are of the order of an Angstrom. Thus there must be large electric fields between the protons and electrons. Why, then is the electronstatic field inside a conductor zero?

(A ): Sharper is the curvature of spot on a charged body lesser will be the surface density of charge at that point. (R ): Electric field is zero inside a charged conductor.

When electric field is applied inside a conductor then free electron are accelerated. Their average velocity in time interval t is proportional to

STATEMENT-1 : In any condition the electric field inside a conductor is always zero. STATEMENT-2 : Under electrostatic condition, conductor is a equipotential volume. STATEMENT-3 : Electric field just outside a conducting surface is ( sigma)/(2 in_(0))

Assertion:A point charge q is placed near an arbitrary shaped solid conductor as shown in figures.The potential difference between the points A and B within the conductor remain same irrespective of the magnitude of charge q Reason: The electric field inside a solid conductor is zero under electrostatic conditions

STATEMENT-2 : An isolated neutral conductor is given some charge . As it is being charged, an electric field appears in the conductor. and STATEMENT -2 : Under static conditions, the net electric field inside a conductor is zero.

The ratio of magnitude of current density and magnitude of electric field inside the conductor is

Assertion : In a cavity within a conductor, the electric field is zero. Reason : Charges in a conductor reside only at its surface.

If vec(j) and vec(E ) are current density and electric field inside a current carrying conductor at an instant then vec(j). vec( E ) is (1) Positive (2) Negative (3) Zero (4) May be positive or negative

We can shield a charge from electric fields by putting it inside a hollow conductor. Can we shield a body from the gravitational influence of nearby matter by putting it inside a hollw sphere or by some other means ?