Charge `Q` on a capacitor varies with voltage V as shown in the figure, where `Q` is taken along the X-axis and V along the Y-axis. The area of triangle OAB represents

When the net force F acting on the particle varies as its position along x-axis shown in the figure, which of the following cannot be oscillatory motion. (where x is the position of the particle)

Two point charge +-q are placed on the axis at x= -a and x= +a , as shown in fig. (i) Plot the variation of E along the x-axis. (ii) Plot the variation of E along the y-axis.

3 charges are placed in a circle of radius d as shown in figure. Find the electric field along x-axis at centre of circle.

3 charges are placed in a circle of radius d as shown in figure. Find the electric field along x-axis at centre of circle.

Find the equation of the ellipse with axes along the x-axis and the y-axis, which passes through the points P(4, 3) and Q(6, 2).

Two point charges (Q each are placed at (0,y) and (0-y) A point charge q of the same polarity can move along the x-axis. Then

Three charges are placed along x-axis at x = - a x = 0 and x = a as shown in the figure. The potential energy of the system is

If a graph is plotted by taking spectral emissive power along y-axis and wavelength along X-axis then the area below the graph above wavelength axis is

Three particles start from the origin at the same time, one with a velocity v_(1) along the x-axis, second along the y-axis with a velocity v_(2) and third particle moves along the line x = y. The velocity of third particle, so that three may always lie on the same line is:

A particle of mass m moves in the XY plane with constant velocity v along the straight line PQ as shown in the figure. Its angular momentum with respect to origin O is( theta is angle between vec v and x-axis)