Figure shows a glowing mercury tube. The intensities at point A, B and C are related as

A long straight hollow metallic tube carrying a current l has three sections of different area of cross section as shown in figure. Three points A, B and C are on a line parallel to the axis of the tube. If magnetic field at this point are B_1 , B_2 , B_3 respectively, then

Figure shows the electric field lines around three point charges A, B and C . Which of the following charges are positive?

The figure shows a arrangement of capacitors and a battery. The potential of the points B and D are (if V_(C) = 0 )

Figure shows a capillary tube C dipped in a liquid that wets it. The liquid rises to a point A . If we blow air through the horizontal tube H , what will happen to the liquid column in the capillary tube?

Two point charges 2 muC and -2 muC are placed at point A and B as shown in figure. Find out electric field intensity at points C and D. [All the distances are measured in meter].

Figure shows a long wire having uniform charge density lambda as shown in figure. Calculate electric field intensity at point P.

Figures shows an electric line of force which curves along a circular arc.The magnitude of electric field intensities is same at all points on this curve and is equal to E .If the potential at A is V ,the potential at B is

Figure shows a liquid of densith 1200kgm^-3 flowing steadily in a tube of varying cross section. The cross section at a point A is 1.0cm^2 and that at B is 20mm^2 , the points A and B are in the same horizontal plane.The speed of the liquid at A is 10 cms^-1 . Calculate the difference in pressure at A and B.

Figure shows an L -shaped tube tilled with a liquid to a height H . What should be the horizontal acceleration a of the tube so that the pressure at the point A becomes atmospheric.

Figure shows a capillary tube of radius r dipped into water. If the atmosphere pressure is P_0 , the pressure at point A is