B 1.7 x 10-27 kg and a charge 3.0 x 10° m/s in the direction illustrated by a red arrow in the drawing above. The particle enters a region with a uniform magnetic field of magnitude B = 0.1 T (direction is given as a black arrow in the drawing). An angle between velocity and A positively charged particle with a mass m = e = 1.6 x 101 C moves with a speed v = magnetic field vectors is 30 degrees. (a) ( motion in a plane transverse to B. Show that the radius of this circle is R = Part of the particle's trajectory in this region will be circular 0.16 m. (b) Show that the time it takes the proton to execute one complete revolution around the circle is T = 6.7 x 107 s. %3D (c) Sketch the three-dimensional trajectory of the particle.
B 1.7 x 10-27 kg and a charge 3.0 x 10° m/s in the direction illustrated by a red arrow in the drawing above. The particle enters a region with a uniform magnetic field of magnitude B = 0.1 T (direction is given as a black arrow in the drawing). An angle between velocity and A positively charged particle with a mass m = e = 1.6 x 101 C moves with a speed v = magnetic field vectors is 30 degrees. (a) ( motion in a plane transverse to B. Show that the radius of this circle is R = Part of the particle's trajectory in this region will be circular 0.16 m. (b) Show that the time it takes the proton to execute one complete revolution around the circle is T = 6.7 x 107 s. %3D (c) Sketch the three-dimensional trajectory of the particle.
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