In a region where both non-zero uniform electric field and magnetic field coexist, the path of a charged particle

A fine pencil of beta -particles, moving with a speed v, enters a region (region I), where a uniform electric field and a uniform magnetic field are both present. These beta -particles then move into region II where only the magnetic field, (out of the two fields present in region I) exists. The path of the beta -particles, in the two regions is as shown in the figure. (i) state the direction of magnetic field. (ii) state the relation between E and B in region I. (iii) Drive the expression for the radius of the circular path of the beta -particle in region II. (iv) If the magnitude of magnetic field, in region II is changed to n times its earlier value, (without changing the magnetic field in region I) find the factor by which the radius of this circular path would change.

A particle of mass m and charge q is thrown in a region where uniform gravitational field and electric field are present. The path of particle:

A charged particle is released from rest in a region of steady and uniform electric and magnetic fields which are parallel to each other . The particle will remove in a

In a region of crossed fields as shown, the strength of electric field is E and that of magnetic field is B. Three positively charged particles with speeds V_(1), V_(2) and V_(3) are projected and their paths are shown. From this it implies that

Statement-1 In a region of space, both electric and magnetic field act in same direction. When a charged particle is projected parallel to fields, it moves undeviated Statement-2 Here, net force on the particle is not zero

A charge q moves region in a electric field E and the magnetic field B both exist, then the force on its is

In a region, steady and uniform electric and magnetic fields are present . These two fields are parallel to each other. A charged particle is released from rest in this region . The path of the particle will be a

A charge particle enters into a region containing uniform electric field (E) and uniform magnetic field (B) along x- axis and y-axis respectively.If it passes the region undeviated the velocity of charge particle is given by

A charge particle enters into a region containing uniform electric field (E) and uniform magnetic field (B) along x-axis and y-axis respectively.If it passes the region undeviated the velocity of charge particle is given by