A rectangular loop of wire with dimensions 2.12 cm by 8 50 cm and resistance 0.576 Ω is being pulled to the right out of a region of uniform magnetic field. The magnetic field has magnitude 3.27 T and is directed into the plane of the following figure(Figure 1)
Part A
At the instant when the speed of the loop is 3.00 m/s and it is still partially in the field region, what is the magnitude of the force the magnetic field exert on the loop?
A rectangular loop of wire with dimensions 2.12 cm by 8 50 cm and resistance 0.576 Ω is being pulled to the right out of a region
A rectangular loop of wire with dimensions 2.43 cm by 8.38 cm and resistance 0.593 Ω is being pulled to the right out of a region of uniform magnetic field. The magnetic field has magnitude 3.01 T and is directed into the plane of the following figure(Figure 1). Part A At the instant when the speed of the loop is 3.09 m/s and it is still partially in the field region, what is the magnitude of the force the magnetic field exert...
A rectangular loop of wire with dimensions 1.80 cm by 7.00 cm
and resistance 0.800 Ω is being pulled to the right out of a region
of uniform magnetic field. The magnetic field has magnitude 2.60 T
and is directed into the plane of (figure 1).
A) At the instant when the speed of the loop is 3.00 m/s and it
is still partially in the field region, what is the magnitude of
the force that the magnetic field exerts...
Please answer both parts correctly, with correct units, and show
your work! thanks!
Constants A rectangular loop of wire with dimensions 1.80 cm by 8.00 cm and resistance 0.800 is being pulled to the right out of a region of unitorm magnetic field. The magnetic field has magnitude 2.80 T and is directed into the plane of (Figure 1) At the instant when the speed of the loop is 3.00 m/s and it is still partially in the field region,...
A rectangular conducting loop is being pulled at constant speed v=4.00 m/s from a region of uniform magnetic field by a constant external force F. The dimentions of the loop are w=.3 m, l=.9 m, and has a resistance of R=5 ohms. In the region where the magnetic field is nonzero, it is directed out of the page and has magnitude of 3.00 T. External force is to the right, magnetic field is pointing out of the page, and velocity...
A circular loop of wire with radius 0.0270 m and resistance 0.320 Ω is in a region of spatially uniform magnetic field, as shown in the following figure(Figure 1). The magnetic field is directed into the plane of the figure. At t = 0, B = 0. The magnetic field then begins increasing, with B(t) =( 0.400 T/s3)t3 .Part A What is the current in the loop (magnitude) at the instant when B = 1.38 T? Part B What is the direction of the...
Part of a single rectangular loop of wire with dimensions shown in the (Figure 1) is situated inside a region of uniform magnetic field of 0.740 T . The total resistance of the loop is 0.780 Ω . Calculate the force required to pull the loop from the field (to the right) at a constant velocity of 5.20 m/s . Neglect gravity.
Part of a single rectangular loop of wire with dimensions shown in the figure (Figure 1) is situated inside a region of uniform magnetic field of 0.336 T . The total resistance of the loop is 0.532 Ω . Calculate the force required to pull the loop from the field (to the right) at a constant velocity of 1.59 m/s . Neglect gravity.
A circular loop of wire with radius 0.0290 m and resistance 0.370Ω is in a region of spatially uniform magnetic field, as shown in the following figure(Figure 1). The magnetic field is directed into the plane of the figure. At t = 0, B = 0. The magnetic field then begins increasing, with B(t) = (0.400 T/s3)t3 Part A What is the current in the loop (magnitude) at the instant when B = 1.29 T?
A circular loop of wire with radius r= 0.0480m and reistance R = 0.160 Ω is in a region of spatially uniform magnetic field, as shown in the figure. The magnetic field is directed out of the plane of the figure. The magnetic field has an initial value of 8.00 T and is decreasing dB/ dt = -0.680 T a) Is the induced current in the loop clockwise or counterclockwise? b) What is the rate at which electrical energy is being dissipated...