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The loop below is in the x-y plane and B 2Bo sin at with Bo positive....
A square loop with sides of length L lies in the x-y plane in a region in which the magnetic field points in the z-direction and change over time as B(t)=B0e^(-5t/t0)k. Find the magnitude of the EMF induced in the wire, show the direction of the induced current in the loop using Lenz's law. A square loop with sides of length L lies in the r-y plane in a region in which the magnetic field points in the z-direction and...
Question 6 4 pts A rectangular loop rotates with a constant angular velocity w about one of its sides as shown in the figure below in a uniform time-invariant magnetic field of flux density B. At t=0 the loop is the plane (x-z). The vector B is in the plane of drawing (y-z). With Eo being a positive constant and T = 21, the induced emf in the loop is of the following form: Question 7 4 pts If the...
(20 pts) A 10cm radius wire loop sits in the x-y plane. A magnetic flux of Ba- 10e-0StT 2 exists in the region of the loop. What is the induced EMF on the loop at t-2s? In what direction does the current flow in the diagram shown below at this time? Draw an arrow to indicate the direction of the induced current. 丨 // r-10cm (20 pts) A 10cm radius wire loop sits in the x-y plane. A magnetic flux...
Figure below shows a square loop of wire that lies in the xy-plane. The loop carries a constant current I in the clockwise direction. The magnetic field has nox component but has both and 2-components: B (Bo/L)+(Boy/L)k where Bo is a positive constant. (L = 1 m, 1 - 2 A, B = 3 T)) Find the magnitude and direction of the net magnetic force on the loop. 102 LD 0,00 (20) OA 6 N(j) a Zero None of above...
An infinite straight wire carries current I1 = 3 A in the positive y-direction as shown. At time t = 0, a conducting wire, aligned with the y-direction is located a distance d = 50 cm from the y-axis and moves with velocity v = 12 cm/s in the negaitve x-direction as shown. The wire has length W = 24 cm. ) What is ε(0), the emf induced in the moving wire at t = 0? Define the emf to...
A magnetic field of magnitude B(t) = B, et pierces the loop shown in the figure in a direction perpendicular to the plane of the loop. Bo = 3.33 T and 8 = 2.22 s-1. The loop is made of cylindrical copper wire, whose radius is r=0.444 mm. The resistivity of copper is p=1.68 x 1089.m. The radius of the loop is 12.2 cm. What is the magnitude of the emf induced in the loop at time t = 0.844...
A magnetic field of magnitude B(t) = Boeßt pierces the loop shown in the figure in a direction perpendicular to the plane of the loop. Bo = 3.33 T and B= 2.22 s-1. The loop is made of cylindrical copper wire, whose radius is r=0.444 mm. The resistivity of copper is p= 1.68 x 10-812.m. The radius of the loop is 12.2 cm. What is the magnitude of the emf induced in the loop at time t = 0.844 s?...
A magnetic field of magnitude B(t) = Boest pierces the loop shown in the figure in a direction perpendicular to the plane of the loop. Bo = 3.33 T and B= 2.22 s-1. The loop is made of cylindrical copper wire, whose radius is r = 0.444 mm. The resistivity of copper is p= 1.68 x 10-812.m. The radius of the loop is 12.2 cm. What is the magnitude of the emf induced in the loop at time t =...
A loop of wire with radius R lies in the xy-plane and carries a time varying current I(t) I, sin(ot). A smaller loop of wire with radius a lies in the xy-plane at the center of the larger loop. Assume that radius of the smaller loop is much smaller that the radius of the larger loop, a<<lR a) (10 points) At the center of the large loop calculate the magnitude and direction of the magnetic field B(t) due to the...
An elliptical loop of axes of length a and b, centered at origin and lying in the y − z plane carries current I. The major axis of the ellipse is the ˆy. 1. What component of A is non-zero in the x − y plane? [A qualitative argument will sufce] 2. Find an expression for B in terms of th non-zero components of A. 3. What is the direction of B along i) the positive x axis and ii)...