In the figure (Figure 1) a conducting rod of length L = 37.0 cm moves in...

In the figure (Figure 1) a conducting rod of length L = 37.0 cm moves in a magnetic field B⃗ of magnitude 0.500 T directed into the plane of the figure. The rod moves with speed v = 6.00 m/s in the direction shown.

Part A

What is the potential difference between the ends of the rod?

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 potential difference across the rod if it moves parallel to ab?

Part G

What is the potential difference across the rod if it moves directly out of the page?

Expert Solution

genius_generous answered 4 months ago

In the figure, a conducting rod of length L = 29.0 cm moves in a magnetic...

In the figure, a conducting rod of length L = 29.0 cm moves in a magnetic field B⃗ of magnitude 0.390 T directed into the plane of the figure. The rod moves with speed v = 6.00 m/s in the direction shown. When the charges in the rod are in equilibrium, what is the magnitude E of the electric field within the rod? What is the magnitude Vba of the potential difference between the ends of the rod? What is...

An isolated conducting rod of length 8.00 cm is oriented parallel to the x-axis. It moves...

An isolated conducting rod of length 8.00 cm is oriented parallel to the x-axis. It moves in the +y-direction at 3.90 m/sm/s in the presence of a uniform magnetic field of magnitude 0.600 T that points in the -z-direction. a) Find the magnitude of the motional emf in the rod. b) Find the magnitude of the electric field produced in the rod. c) Find the direction of the electric field produced in the rod.

The figure below is a section of a conducting rod of radius R1=1.30mm and length L=11.00m...

The figure below is a section of a conducting rod of radius R1=1.30mm and length L=11.00m inside a thick-walled coaxial conducting cylindrical shell of radius R2=10.0R1 and the (same) length L. The net charge on the rod is Q1=-4.30∗10−12C that on the shell is Q2=-4.00Q1. a) What is the magnitude E of the electric field at a radial distance of r = 2.50R2? b) What is the direction of the electric field at the radial distance (inward, outward, or zero)? Give...

In (Figure 1), the rod moves with a speed of 1.6 m/s on rails 29.0 cm...

In (Figure 1), the rod moves with a speed of 1.6 m/s on rails 29.0 cm apart. The rod has a resistance of 2.1 Ω . The magnetic field is 0.31 T , and the resistance of the U-shaped conductor is 26.0 Ω at a given instant. Part A Calculate the induced emf Part B Calculate the current in the U -shaped conductor. Part C Calculate the external force needed to keep the rod's velocity constant at that instant.

In the figure, three 0.03 kg particles have been glued to a rod of length L...

In the figure, three 0.03 kg particles have been glued to a rod of length L = 9 cm and negligible mass and can rotate around a perpendicular axis through point O at one end. How much work is required to change the rotational rate (a) from 0 to 20.0 rad/s, (b) from 20.0 rad/s to 40.0 rad/s, and (c) from 40.0 rad/s to 60.0 rad/s? (d) What is the slope of a plot of the assembly's kinetic energy (in...

Understanding Physics - Problem 3) Part 1) The figure is a section of a conducting rod...

Understanding Physics - Problem 3) Part 1) The figure is a section of a conducting rod of radius R1 = 1.40 mm and length L = 14.40 m inside a thin-walled coaxial conducting cylindrical shell of radius R2 = 11.1R1 and the (same) length L. The net charge on the rod is Q1 = +3.72 × 10-12 C; that on the shell is Q2 = -2.12Q1. What are the (a) magnitude E and (b) direction (radially inward or outward) of...

The figure is a section of a conducting rod of radius R1 = 1.20 mm and...

The figure is a section of a conducting rod of radius R1 = 1.20 mm and length L = 13.80 m inside a thin-walled coaxial conducting cylindrical shell of radius R2 = 10.1R1 and the (same) length L. The net charge on the rod is Q1 = +3.41 × 10-12 C; that on the shell is Q2 = -2.33Q1. What are the (a) magnitude E and (b) direction (radially inward or outward) of the electric field at radial distance r...

The figure is a section of a conducting rod of radius R1 = 1.45 mm and...

The figure is a section of a conducting rod of radius R1 = 1.45 mm and length L = 12.60 m inside a thin-walled coaxial conducting cylindrical shell of radius R2 = 10.7R1 and the (same) length L. The net charge on the rod is Q1 = +3.56

A rod of length L has a charge per unit length λ. The rod rotates around...

A rod of length L has a charge per unit length λ. The rod rotates around its center at angular frequency ω. Using the dipole approximation, find the power radiated by the rotating rod.

The figure below is a section of a conducting rod of radius R1 = 1.30 mm...

The figure below is a section of a conducting rod of radius R1 = 1.30 mm and length L = 11.00 m inside a thick-walled coaxial conducting cylindrical shell of radius R2 = 10.0R1 and the (same) length L. The net charge on the rod is Q1 = +1.50 10-12C that on the shell is Q2 = −2.00Q1. (a) What is the magnitude E of the electric field at a radial distance of r = 3.00R2? -0.629 Incorrect: Your answer...

Question