Electric field strength `bar(E)=E_(0)hat(i)` and magnetic induction `bar(B)=B_(0)hat(i)` exists in a region. A charged particle `'q'` is released from rest at origin. Work done by both the fields is after certain time is

Electric field strength bar(E)=E_(0)hat(i) and bar(B)=B_(0)hat(i) exists in a region. A charge is projected with a velocity bar(v)=v_(0)hat(j) at origin , then

In a region of space uniform electric field is present as vec(E)=E_(0)hat(j) and uniform magnetci field is present as vec(B)=B_(0)hat(j) . An electron is released from rest at origin. Which of the following best represent the path followed by electron after released. (E_(0) & B_(0) are positive constants )

A uniform electric field, underset(E)to=E_(0)hati and a uniform magnetic field, underset(B)to=B_(0)hati exist in region y gt 0. A particle hav- ing positive charge q and mass m is projected from the origin with a velocity underset(V)to=V_(0)hati+V_(0)hatJ. The velocity of the particle when it leaves the region of fields was found to be -underset(V)to. (i) Find the ratio (E_(0))/(B_(0)) in terms of v0. (ii) Find the co-ordinates of the point where the particle leaves the fields. (iii) Find the minimum speed of the particle during the course of the motion.

Electric field and magnetic field in a region of space are given by vec E = E_(0) hat I " and " vec B = - B_(0) hat k , respectively. A positively charged particle (+q) is released from rest at the origin. When the particle reaches a point P(x, y, z) , then it attains kinetic energy K that is equal to

In region x gt 0 a uniform and constant magnetic field vec(B)_(1) = 2 B_(0) hat(k) exists. Another uniform and constant magnetic field vec(B)_(2) = B_(0) hat(k) exists in region x lt 0 A positively charged particle of mass m and charge q is crossing origin at time t =0 with a velocity bar(u) = u_(0) hat(i) . The particle comes back to its initial position after a time : ( B_(0),u_(0) are positive constants)

Electric field and magnetic field in a region of space are given by (Ē= E_0 hat j) . and (barB = B_0 hat j) . A charge particle is released at origin with velocity (bar v = v_0 hat k) then path of particle is

An electron travelloing with a velocity bar(V)=10^(7) hat(i)m//s enter a magnetic field of induction bar(B)=bar(2j) . The force on electron is

In an uniform electric field of strength E, a charge particle Q moves point A to point B in the direction of the field and back from B to A. Calculate the ratio of the work done by the electric field in taking the charge particle from A to B and from B to A.

In a certain region, uniform electric field E=-E_0hatk and magnetic field B = B_0hatk are present. At time t = 0 , a particle of mass in and charge q is given a velocity v = v-0hatj + v-0hatk . Find the minimum speed of the particle and the time when it happens so.