A uniform magnetic field `barB =B_(0)hatj` exists in a space. A particle of mass m and charge q is projected towards negative x-axis with speed v from the a point `(d,0,0)` The maximum value v for which the particle does not hit `y-z` plane is .

A uniform magnetic field B=B_(0)hatj exists in space. A particle of mass m and charge q is projected towards X-axis with speed v from a point (a,0, 0). The maximum value of v for which the particle does not hit the Y-Z plane is

Consider the situation described in the previous example. A particle of mass m having a charge q is placed at a distance d from the metal sheet and is projected towards it. Find the maximum velocity of projection for which the particle does not hit the sheet.

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.

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.

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.

Two particle, each having a mass m are placed at a separation d in a uniform magnetic field B as shown in figure.They have opposite charges of equal magnitude q .At time t=0, the particles are projected towards each other, each with a speed v . Find the maximum value v_(m) of the projection speed so that the two particle do not collide.