the bead move

A square loop of side ‘l’ each side having uniform linear charge density ‘lambda’ is placed in ‘xy’ lane as shown in the figure There exists a non uniform electric field E→=al(x+l)iˆ where a and l are constants and x is the position of the point from origin along x-axis. Find the resultant electric force [...]

Two identical small balls each have a mass m and charge q. When placed in a hemispherical bowl of radius R with frictionless, nonconductive walls, the bead move, and at equilibrium the line joining the balls is horizontal and the distance between them is R (see figure). Neglect any induced charge on the hemispherical bowl. [...]

In a free space, a thin rod carrying uniformly distributed negative charge -q is placed symmetrically along the axis of a thin ring of radius R carrying uniformilly distriburted charge Q. the mass of rod is m and the length is l= 2R. The ring is fixed and the rod is free to move . [...]

A charge particle A is fixed at the base of a uniform slope of inclination α . Another charge particle B is palced on the slope at an angulare position β measured from the line of greatest slope passing through the position of the first particle. The coefficient of froction between the particle B and [...]

In a horizontal unifrom electirc field, a small charged disk is gently released on the top of a fixed sperical dome. The disk slides down the some without friction and breaks away from the surface of the dome at the angular position θ=sin−1(3/5) from verical. Determine the ration of the force of gravity acting on [...]

Two balls of charges q1 and q2 initially have a velocity of the same magnitude and direction. After a uniform electric field has been applied for a certain time. The direction of the first ball changes by 60∘ and the velocity magnitude is reduced by half. The direction of velocity of the second ball changes [...]

Two small balls having the same mass and charge and located on the same vertical at heights h1 and h2 are thrown in the same direction along the horizontal at the same velocity v. The first ball touches the ground at a horizontal distance R from the initial vertical position. At what height h2 will [...]

a point charge Q is fixed at the center of the insulated disc of mass M.the disc rest on a roughly horizontal plane . another charge having some value as point charge is fixed vertically above the centre of the disc and a height h . After the disc is displaced slightly in the horizontal [...]

A point charge Q1=−125μC is fixed at the center of an insulated disc of mass 1 kg. The disc rests on a rough horizontal plane. Another charge Q2=125μC is fixed verically above the center of the disc at a height h=1m. After the disc is displaced slightly in the horizontall direction (friction is sufficient to [...]

A charged particle q of mass m is in wquilibrium at a height h from a horizontal infinite line charge wit uniform linear charge density λ. The charge lies in the vertical plane containing the line charge. If the particle is displaced slightly (vertically) prove that the motion of the charged particle will be simple [...]