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13. A certain rod has a length of 96.0 cm and moves southward through a uniform...
A 2.30 m length of wire is held in an east–west direction and moves horizontally to the north with a speed of 14.7m/s. The vertical component of Earth's magnetic field in this region is 40.0 μT directed downward. Calculate the induced emf between the ends of the wire and determine which end is positive. magnitude mV positive end ---Select--- west end both neither east end
In the figure, a conducting rod of length L = 31.0 cm moves in a magnetic field B of magnitude 0.460 T directed into the plane of the figure. The rod moves with speed v = 6.00 m/s in the direction shown. (Figure 1) Part C When the charges in the rod are in equilibrium, what is the magnitude of the electric field within the rod? Part F What is the magnitude E of the motional emf induced in the rod?
A 2.90-m length of wire is held in an east-west direction and moves horizontally to the north with a speed of 0.680 m/s. The Earth's magnetic field in this region is of magnitude 50.0 ut and is directed northward and 53.0° below the horizontal. (a) Calculate the magnitude of the induced emf between the ends of the wire. μν (b) Determine which end is positive. O the east end o the west end O both O neither
A 1.95 m length of wire is held in an cast-west direction and moves horizontally to the north with a speed of 15.1 m/s. The vertical component of Earth's magnetic field in this region is 40.0 T directed downward. Calculate the induced emf between the ends of the wire and determine which end is positive. magnitude positive end Select...
In the figure, a conducting rod of length L= 27.0 cm moves in a magnetic field B of magnitude 0.370 T directed into the plane of the figure. The rod moves with speed v = 7.00 m/s in the direction shown. (Figure 1) A. When the charges in the rod are in equilibrium, what is the
magnitude E of the electric field within the rod?B. What is the magnitude Vba of the potential difference
between the ends of the rod?C. What...
A horizontal square loop of I m2area with sides aligned in north-south and east-west directions moves horizontally north at 30 m/s velocity. It encounters a vertical, east-west wall of uniform magnetic field 100 m wide. Magnetic field in the wall is 104 teslas strong and points east and 45° up. Plot EMF induced in the loop
A horizontal square loop of I m2area with sides aligned in north-south and east-west directions moves horizontally north at 30 m/s velocity. It encounters...
The conducting rod shown in the accompanying figure moves along parallel metal rails that are 25-cm apart. The system is in a uniform magnetic field of strength 0.75 T, which is directed into the page. The resistances of the rod and the rails are negligible, but the section PQ has a resistance of 0.25 Ω. (a) What is the emf induced in the rod when it is moving to the right with a speed of 5.0 m/s? (b) What force is required to...
In the figure (Figure 1) a conducting rod of length L = 30.0 cm
moves in a magnetic field B? of magnitude 0.470 T directed into the
plane of the figure. The rod moves with speed v = 5.60 m/s in the
direction shown. I need help with Part A,C,F,G
A conducting rod of lenght 35 cm moves in a uniform magnetic
filed of 0.0625 Tesla directed into the plane with a velocity of
7500 mm/.
A) When the charges in the rod are in equilibrium, draw (sketch)
which side has the excess positive charge.
B) Draw the direction of the electric field in the rod.
C) Calculate the magnitude of the electric field in the rod when
the charges are in equilibrium.
D) Calculate the magnitude of the potential...
In the figure (Figure 1) a conducting rod of length L = 33.0 cm moves in a magnetic field B of magnitude 0.480 T directed into the plane of the figure. The rod moves with speed v=5.90 m/s in the direction shown. Part A What is the potential difference between the ends of the rod? Part B Which point, a or b, is at higher potential? Part C When the charges in the rod are in equilibrium, what is the magnitude of the electric field? Part D What...