Two infinite long wires, each carrying current I, are lying along x- and y-axis, respectively. A charged particle, having a charge q and mass m, is projected with a velocity u along the straight line OP. The path of the particle is (neglect gravity)

two infinite wires, carrying currents i_1 and i_2 ., are lying along x-and y-axes, as shown in the x-y plane. Then,

two infinite wires, carrying currents i_1 and i_2 ., are lying along x-and y-axes, as shown in the x-y plane. Then,

Two infinitely long wires carry currents 4A and 3A placed along X-axis and Y-axis respectively. Magnetic field at a point p(0,0,d) m will be…..T.

Two infinitely long straight wires A and B, each carrying current I are placed on x and y-axis, respectively. The current in wires A and B flow along -hat(i) and hat(j) directions respectively. The force on a charge particle having vharge q, moving from position, r=d (hat(i)+hat(j)) with velocity v= vhat(i) is

Two long straight currents carrying wires having currents I and 2I lie along y-and z-axis, respectively, as shown in Fig. Find vecB at a point P(x,0).

Two long straight currents carrying wires having currents I and 2I lie along y-and z-axis, respectively, as shown in Fig. Find vecB at a point P(x,0).

Two infinite long straight current carrying wires are placed parallel to y-axis in x-y plane. Each wire carries current I in opposite direction as shown. A charged particle of charge +q and mass m is projected from position P (0,0,a) with initial velocity vecv=vechatj . Then

A charge particle of mass m and charge q is projected with velocity v along y-axis at t=0. Find the velocity vector and position vector of the particle vec v (t) and vec r (t) in relation with time.