A proton and an alpha particle are projected in a perpendicular magnetic field B which exists in a region of width d, figure. Find the ratio of the sines of angles of deviation suffered by the proton and the alpha particle if before entering the magnetic field both the particles (i) have the same momentum (ii) have the same kinetic energy.

A proton and an alpha particle are projected in a magnetic field which exists in the width of region d. Compare the angles of deviation suffered by the proton and the alpha particle if before entering the magnetic field both the particles. a. have the same momentum, b. have the same kinetic energy, and c. are accelerated through the same potential difference. Take m_alpha = 4 m_p, q_alpha = 2 q_p.

A proton and an alpha particle are projected in a magnetic field which exists in the width of region d. Compare the angles of deviation suffered by the proton and the alpha particle if before entering the magnetic field both the particles. a. have the same momentum, b. have the same kinetic energy, and c. are accelerated through the same potential difference. Take m_alpha = 4 m_p, q_alpha = 2 q_p.

A proton and an alpha particle projected with same velocity in uniform transverse magnetic field then

A proton and an alpha particle projected with same velocity in uniform transverse magnetic field then

A proton and an alpha -particles enters in a uniform magnetic field with same velocity, then ratio of the radii of path describe by them

A proton and an alpha -particles enters in a uniform magnetic field with same velocity, then ratio of the radii of path describe by them

A proton and an alpha -particle are projected with the same kinetic energy at right angle to a uniform magnetic field. The ratio of the radii of their paths is

A proton and an alpha- particle enter a uniform magnetic field at right angles to the field with same speed. The ratio of the periods of alpha- particle and proton is