A wooden block performs SHM on a frictionless surface with frequency, `v_(0)`. The block carries a charge `+Q` on its surface. If now a uniform electric field `vec (E)` is switched on as shwon in figure., then the SHM of the block will be

A spring block system undergoes SHM on a smooth horizontal surface, the block is now given some charge and a uniform horizontal electric field E is switched on as shown in Fig. As a result

A hemispherical surface of radius R is kept in a uniform electric field E as shown in figure. The flux through the curved surface is

In Fig. A is a large block which executes shm by sliding across a frictionless surface with a frequency n. The block B is at rest on the surface of the block mu_s The coefficient of static friction between the two is H. Find the maximum amplitude of oscillation of the system so that the block B does not slip.

A block having mass 'm' and charge q is resting on a frictionless plane at distance L from the wall as shown in fig.Discuss the motion of the block when a uniform electric field E is applied horizontally towards the wall assuming that collision of the block with the wall is perfectly elastic.

A 4.00 kg block carrying a charge Q = 50.0muC is connected to a spring for which k = 100 N/ m. The block lies on a frictionless horizontal track, and the system is immersed in a uniform electric field of magnitude E = 5.00 xx 10^5 V/m , directed as shown in figure. If the block is released from rest when the spring is unstretched (at x = 0). (a) By what maximum amount does the spring expand? (b) What is the equilibrium position of the block? (c) Show that the block's motion is simple harmonic and determine its period. (d) Repeat part (a) if the coefficient of kinetic friction between block and surface is 0.2.

A wooden block of mass M resting on a rough horizontal surface is pulled with a force T at an angle q to the horizontal. If m is coefficient of kinetic friction between the block and the surface, the acceleration of the block is

A block of mass m slides along a frictionless surface as shown in the figure. If it is releases from rest from A what is its speed at B?

A spring of spring constant 'K' is fixed at one end has a small block of mass m and charge q is attached at the other end. The block rests over a smooth horizontal surface. A uniform and constant magnetic field B exists normal to the plane of paper as shown in figure. An electric field vec(E) = E_(0) hat (i)(E_(0) is a positive constant) is switched on at t =0 sec. The block moves on horizontal surface without ever lifting off the surface. Then the normal reaction acting on the block is :

A positively charged pendulum is oscillating in a uniform electric field as shown in Figure. Its time period of SHM as compared to that when it was uncharged. (mg gt qE)

The block shown in the diagram has a mass of 2mug and a charge of 2xx10^(-9)C . If the block is given an initial velocity of 2ms^(-1) in the x - direction at t = 0 and an electric field of 2NC^(-1) is switched on in the x - direction, then the range (R) of the block on the ground will be