(2) Consider a uniform magnetic field B = 3.58µTk which exists in a limited square region centered at the origin with sidelength d = 7.65cm. (a) A proton is fired along the x-axis with velocity i = 53.7m/si. What is the angle between the proton's velocity exiting the field and the proton's initial velocity (deflection angle)? (b) An electron is fired along the x-axis with velocity i = 53.7m/si. What is the angle between the electron's velocity exiting the field and the electron's initial velocity (deflection angle)? (c) A square loop with sidelength s = 4.76cm is placed with its center at the origin and located in the y – z plane (shown below). The torque on the loop is 7 = 5.18 × 10-6N mj. What is the magnetic moment of this loop? (d) What is the potential energy of this loop of wire?
(2) Consider a uniform magnetic field B = 3.58µTk which exists in a limited square region centered at the origin with sidelength d = 7.65cm. (a) A proton is fired along the x-axis with velocity i = 53.7m/si. What is the angle between the proton's velocity exiting the field and the proton's initial velocity (deflection angle)? (b) An electron is fired along the x-axis with velocity i = 53.7m/si. What is the angle between the electron's velocity exiting the field and the electron's initial velocity (deflection angle)? (c) A square loop with sidelength s = 4.76cm is placed with its center at the origin and located in the y – z plane (shown below). The torque on the loop is 7 = 5.18 × 10-6N mj. What is the magnetic moment of this loop? (d) What is the potential energy of this loop of wire?
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