Grade 12 physics fields unit, do question 1 bcd, please have the solutions within 15min if possible.

ts, staple together when finished. ,. . y w all our work on separate shee . ShO y h units and directions when needed. ' /, \\/ Remember to present final results wit tan(6) = g? Ad = ler + :-aAt v2 = 171 + ZaAd 1. Charged parallel plates (a capacitor) with a potential difference (voltage) of 1.0 kV are ma 2 6.64 x 10'27 kg, q = +2e) horizontally, from rest used to accelerate an alpha particle ( ' ~ to a maximum velocity. The particle is then steered upwards By another set of parallel J'\\ 1 i e = 3.0 x 104 MC. charged plates (5 cm long and 2 cm apart) with a field strength of a. Make a diagram of this setup. b. Calculate the horizontal component of the particle's velocity. Vx MAX \\l\". = 0 c. Calculate the vertical angle of deviation of the particle after it passes through the second set of plates. 6 d. If the distance between the charged plates used to horizontally accelerate the particle from rest were 10 cm apart. calculate the horizontal acceleration undergone by the alpha particle. .2. Two charged plates 5'0 cm 61%.\" are used to accelerate an electron (me = 9.1 x 10'31 k ). Vac initially at rest, towards the East. The electron then enters a 10'4T,magnetic field in which \" it traces out a semicircular ath. The electr ' ' p on comes out a centimeters North of where it entered the magnetic field and now heads West. E?) a. Make a diagram of this setup. Include the particle's trajectory, any field lines and the forces acting on the particle. ' H\" b. Determine the radius of the particle's path in the magnetic field c. Calculate the velocity of the particle in the magnetic field. ' . cl. Calculate the pg ' 'fference between the charged plates