Draw a graph of show the variation of E with perpendicular distance r from the line of charge.

An isolated conducting sphere of radius r is given a charge +Q. This charge may be assumed to act as a point charge situated at the centre of the sphere, as shown below in Fig.-1 | Fig.2 shows the variation with distance from the centre of the sphere, the potential V due to the charge +Q. Using the above relation, sketch a graph to show the variation with distance xx of the electric field E due to charge +Q.

Find the points on y- ais whose perpendicular distance from the line 4x-3y-12=0 is 3.

State the nature of the graph showing the change of magnetic field with the perpendicular distance from an infinitely long wire carrying a steady current.

The co-ordinates of a point on the line y = x where perpendicular distance from the line 3x + 4y = 12 is 4 units, are :

Draw a graph to show the variation of resistance of a metal wire as a function of its diameter,keeping length and temperature constant.

Determine the electric field at a distance r from a point charge.

Find the equation of the straight line which is perpendicular to the straight line 3x-2y+5=0 and whose distance from the origin is equal to the perpendicular distance of the given line from the point (2,-1).

Draw the graph of the function, f(x)=e^x .

Prove that the perpendicular distance of the line 3x+4y+5 =0 from origin is 1 unit.

The inclination of a straight line is 150^(@) , if the perpendicular distance of the line from the origin is 10 units , find the equation of the straight line .