Find the electric field intensity at the centre of a semi circular arc of radius r, uniformaly charged with a charge q.

Find the electric field at the centre of a uniformly charged semicircular ring of radius R. Linear charge density is lamda

Electric field at centre of a uniforly charged semicirlce of radius a is

A charge q is divided into three equal parts and placed symmetrically on a circle of radius r. The same charge is divided into four equal parts and placed symmetrically on the same circle. The electric field intensities at the centre of the circle in two situations are zero Q. If a charge (part charge) is removed from one location in both the situations, the ratio of magnitudes of the electric field intensities at the centre is

Derive an expression for the strength of electric field intensity at a point on the axis of a uniformly charged circular coil of radius R carrying charge Q.

Field Of Uniformaly Charged Disc

Find : (i)Electric field intensity due to an infinitely long uniformly charged, straight conductor , at a perpendicular distance d from rod. (ii)Electric field intensity at a point on perpendicular bisector of uniformly charged rod of length l and charge Q at a distance d from the centre of rod.

The electric field strength due to a circular loop of charge of radius R are uniform linear density of charge lambda , at its centre is proportonal to

Assertion: Three equal charges are situated on a circle of radius r such that they form on equilateral triangle, then the electric field intensity at the centre is zero. Reason: The force on unit positive charge at the centre, due to the three equal charges are represented by three sides of a triangle taken in the same order. Therefore, electric field intensity at centre is zero.

Find the electric flux due to a point charge 'Q' through the circular region of radius R if the charge is placed on the axis of ring at a distance x.

The maximum electric field intensity on the axis of a uniformly charged ring of charge q and radius R will be