A positively charge particle moving along `x`-axis with a certain velocity enters a uniform electric field directed along positively y-axis. Its

A particle of mass m carrying a positive charge q moves simple harmonically along the x-axis under the action of a varying electric field E directed along the x-axis. The motion of the particle is confined between x=0 and x=2l. The angular frequency of the motion is omega . Then which of the following is correct ?

A positively charged particle moving due east enters a region of uniform magnetic field directed vertically upwards. The partical will be

A charged particle moves along positive y-axis with constant velocity in uniform electric and magnetic fields. Ilf magnetic fiedl is actig along positive x-axis, then, electric field should act along positive z-axis. Reason: To keep the charged particle undeviated the relation E=Bxxv must hold good.

A positively charged particle, having charge q, is accelerated by a potential difference V. This particle moving along the x-axis enters a region where an electric field E exists. The direction of the electric field is along positive y-axis. The electric field exists in the region bounded by the lines x=0 and x=a. Beyond the line x=a (i.e., in the region xgta ), there exists a magnetic field of strength B, directed along the positive y-axis. Find a. at which point does the particle meet the line x=a . b. the pitch of the helix formed after the particle enters the region xgea. (Mass of the particle is m.)

A charge q moving along the X-axis with a velocity vecv is subjected to a uniform magnetic field B acting along the Z-axis as it crosses the origin O. Figure. (i) Trace its trajectory . (ii) Does the charge gain kinetic energy as it enters the magnetic field? Justify yous answer.

Equipotential surfaces associated with a uniform electric field along positive x-axis are planes parallel to

A positively charged particle with specific charge sigma leaves the origin with a velocity u directed along positive x direction. The entire space has a uniform electric field (E) and magnetic field (B) directed along the positive y direction. Find the angle that the velocity of the particle makes with y direction at the instant it crosses the y axis for n^(th) time.

A positively charged ion is released at the origin of a co-ordinate system. The entire space is filled with a uniform electric field directed along positive x axis and a uniform magnetic field directed along positive z direction. (i) Which (x, y or z) co-ordinate of the particle will always remain zero during its course of motion? (ii) Which (x, y or z) co-ordinate of the particle will always be negative? (iii) It is true to say that radius of curvature of the path of the particle is decreasing while its x co-ordinate decreases? (iv) If the ion is negatively charged will its y co-ordinate ever become negative?