In the figure, a conducting rod with length L = 29.0 cm moves in amagnetic field B of magnitude 0.370 T directed into the plane of the figure.The rod moves with speed v6.00 m/s in the direction shown. (Figure 1)FigurexXXLXVXXXBXX< 1 of 1 >Part CWhen the charges in the rod are in equilibrium, what is the magnitude E of the electric field within the rod?Express your answer in volts per meter to at least three significant figures.► View Available Hint(s)IV—| ΑΣΦE=SubmitPart DPart EVba =SubmitPWhat is the magnitude Vba of the potential difference between the ends of the rod?Express your answer in volts to at least three significant figures.► View Available Hint(s)IVF ΑΣΦ?BV/m?V Part FWhat is the magnitude & of the motional emf induced in the rod?Express your answer in volts to at least three significant figures.▸ View Available Hint(s)1971 ΑΣΦε =Submit?V

Given that Length of conducting rod,L=29 cm=0.29 m Magnetic field,B=0.37 T the rod moves with…

Answered: In the figure, a conducting rod with…

Similar questions

A square coil of wire of side 3.90 cm is placed in a uniform magnetic field of magnitude 2.50 T directed into the page as in the figure shown below. The coil has 39.0 turns and a resistance of 0.780 Ω. If the coil is rotated through an angle of 90.0° about the horizontal axis shown in 0.335 s, find the following. A square coil is shown in the plane of the page, and inside the coil a magnetic field points into the page. A horizontal rotation axis passes through the middle of the square. An arrow indicates that the square rotates clockwise on the axis when viewed from the left. (a) the magnitude of the average emf induced in the coil during this rotation mV(b) the average current induced in the coil during this rotation mA
An electric field with initial magnitude 210 V/m directed into the page and increasing at a rate of 13.0 V/(ms) is confined to the area of radius R = 15.0 cm in the figure below. If r = 45.0 cm, what are the magnitude and direction of the magnetic field at point A? magnitude direction ---Select--- Ø Ø A O R
Suppose a square loop is sitting in a magnetic field of 85.0 Gauss, at a 60.0° angle to it. If the magnetic flux through the loop is 1,500 µWb, what is the side length of the loop (cm)? [?] cm Hint: 1 Tesla = 10,000 Gauss
The magnetic field at a distance r=50 cm away from the wire is 6.8 x 10(-7) T. Compute the wire's current.
QUESTION 7 Refer to the figure in the previous question. What is the emf induced when a 5.48-cm conducting rod attached to a U-shaped conductor moves at 1.56 m/s perpendicular to a magnetic field of strength 14.9 T? Please write the numeric answer in terms of V (volts). Normal format with 3 SF.
Magnetic flux is measured in webers which can be expressed in units of V*s (V = volts). The magnetic flux was 14.993 V*s. What is the magnetic flux in kV*µs?
In the figure (Figure 1) the top wire is 1.1 −mm−mm -diameter copper wire and is suspended in air due to the two magnetic forces from the bottom two wires. The current flow through the two bottom wires is 75 AA in each. Calculate the required current flow in the suspended wire. Express your answer using two significant figures. ICu=____________A