(BEKP 2453) QUESTION 2 Figure Q2 (a) shows a rectangular conducting loop is lies on a uniform magnetic field of B R...
7 Figure 3 (b) A conducting rectangular loop of wires whose sides are a and b (as in Figure 3) and electrical resistance R, enters in an area with a magnetic field B = B, yż. This magnetic field only exists in the area where x > 0 and Y > 0, as shown in Figure 3. The rectangular loop of wires slides without friction, with constant velocity v directed along the OX axis. Determine: (1) The magnetic force acting...
QUESTION 8 The half-circle conducting loop lies in the uniform magnetic field B that is directed out of the page. The field magnitude is given by B=4t- +2t +3. with B in Teslas and t in seconds What are the magnitude and direction of the emf induced along the loop by B at t=10 sec? Attach File Browse My Computer Browse Content Collection B rowse Dropbox
16)A triangular conducting loop lies in a uniform magnetic field B which varies with time as shown in 10 the graph. At t = 1 s the magnetic field is pointing out of the page. The triangle's height is-3 ma ptsFor what time interval(s) is the induced current in the loop equal to zero? (b) During what time interval (s) is the magnitude of the induced current a maximum? (c) What is the magnitude of the induced voltage at t...
Question 6 [5 marks] A rectangular loop with sides l = 30 cm and w 10 cm carries a current, I, of 2 A and lies centered in the xy-plane as shown below. The loop is in a region where there is a uniform magnetic field. The magnetic field is given by B (2 a3 ay + 4 az) x 102 Wb/m2. Determine the total force acting on the loop and the torque acting on the loop. Question 6 [5...
1. Consider a rectangular conducting loop of length l, width w, mass m, and resistance R. Due to gravity g, it is falling out of a uniform magnetic field that points out of the page. At the time shown in the figure, the rate at which heat is released from the loop reaches a constant value P. O © Boo O O BrŐ Figure 1: Loop falling out of a magnetic field (a) Find the magnetic field B in terms...
8.) (30 points) A rectangular frame of conducting wire has negligible resistance and a width 1.0 m is placed in a magnetic field (directed into the page) of 2.0 T, as shown in the figure A metal conducting bar having a resistance of 5.0Ω is placed across the frame, maintaining contact with the frame. conducting frame rod If the bar is moving at a speed of 1.5m/s, what is the voltage (em) induced across the ends of the bar? a)...
The figure below shows a rectangular loop of wire that is 0.300 m wide, is 1.50 m long, and lies in the vertical plane which is perpendicular to a region that has a uniform magnetic field. The magnitude of the uniform magnetic field is 0.400 T and the direction of the magnetic field is into the page. The portion of the loop not in the magnetic field is 0.100 m long. The resistance of the loap is 0.200 2 and...
2. A steady, uniform magnetic field B with unknown magnitude and direction exists through- the shaded rectangular region shown here (diagrams are not to scale). This region is planar-entirely in the x-y plane (+x is east and +y is north). The region's width (from its west edge to its east edge) is a known distance D. The region's length (from its north edge to its south edge) is 10D. Consider the following experiments, all performed with this field. coonfinate atan...
Iwire The magnetic field for a long wire is В — B = 2π r = distance from wire, I = current d through wire, Ho = 4 n x 10~-7 Tm Iloop A Current-carrying wire in magnetic field B the magnetic force on the wire is I = current, L = vector, magnitude is length of the wire, direction of the curent The magnetic forces between wires is one way to measure currents without having to place an ammeter...
The figure below shows a circular loop of wire of resistance R = 0.500Ω and radius r = 9.30 cm in the presence of a uniform magnetic field B out directed out of the page. A clockwise current of I = 3.30 mA is induced in the loop.(a) Which of the following best describes the magnitude of Bout It is increasing with time. It is decreasing with time. It remains constant. (b) Find the rate at which the field is changing with time (in...