There are four conductors whose voltage-current diagram is shown in the figure on the right SSR...
There are four conductors whose voltage-current diagram is shown in the figure on the right. I - Part A - Find the conductor whose resistance is the largest O All of them have the same resistance
Problem1 In the concentric spherical conductors system shown in Figure 1, the inner conductor has positive charge-q and radius a. The outer conductor has radius b a) Using Gauss' Law determine the electric field vector E(r) in the region between the conductors (acrcb) and the potential difference Vab between them. b) Calculate E(r) and Vab if the two conductors have a 30 mm, b-40 mm, q 10uc, r-35 mm ε,-8.85x10-12C3(N.m2. For the circuit shown in Figure 2 find: a) the...
2 SPHERICAL CONDUCTORS Two concentric spherical conductors or radii a, b (with b> a) have an Ohmic material with conductivity ơ placed between them. 2.1 20 POINTS Find the resistance between the shells. 2.2 15 POINTS Now consider two spherical conductors of radius a whose centres are a distance R apart as in the figure with R » a. They are submerged together in the same bath of (liquid) Ohmic material with conductivity o. Find the resistance be the same...
A four-capacitor circuit is shown at right. Assume all four capacitors have different values of capacitance. 1. C2 and Cz are connected in series / parallel (circle one). Find their equivalent capacitance. v + c 2. Cz and C3 have the same / different (circle one) voltage drop across them. 3. C2 and C2 have the same / different (circle one) charge on their plates. A four-capacitor circuit is shown at right. Assume all four capacitors have different values of...
An infinitely long conductor carrying current is bent at a right angle as shown in Figure 1. Point Pis located a distance b from the corner of the wire. Only one section of this current contributes to the magnetic field at pt. P. Why? The general formula (derived from the Biot-Savart Law) for the magnitude of the magnetic field a distance a away from a thin, straight conductor is: B = f (sin 8, - sin 02) For this problem,...
Please answer everything with steps. Thank you Problem 1(30%)Faraday's Law In the following drawing, four conductors compose a rectangular loop that is perpendicular to a magnetic field, where the top and the bottom conductors are fixed and the distance between them is a constant valueWo 1.1) If conductor 1 is not moving, the magnetic field is evenly distributed, the flux density B is a constant Bo conductor 2 is moving at a speed vo and remaining touching the top and...
Exam 2 for Electric Drives Name Problem i (30%) Faraday's Law In the following drawing, four conductors compose a rectangular loop that is perpendicular to a magnetic field, where the top and the bottom conductors are fixed and the distance between them is a constant value Wo. 1.1) If conductor 1 is not moving, the magnetic field is evenly distributed, the flux density B is a constant B, is moving at a speed vo and remaining touching the top and...
Four long, parallel conductors carry equal currents of I. The figure is an end view of the conductors. Crosses are INTO 2) the page and dots are OUT of the page. Calculate the magnitude and direction of the magnetic field at the center of the square with sides of length a. 3) A rectangular conducting loop (with very very long length) of resistance R, mass m and width w falls (gravity is constant) into a uniform magnetic field (B) as...
Consider the network of four resistors shown in the diagram, where R1 = 2.00 Ω , R2 = 5.00 Ω , R3 = 1.00 Ω , and R4 = 7.00 Ω . The resistors are connected to a constant voltage of magnitude V. (Figure 1)a.) Find the equivalent resistance RA of the resistor network.b.) Two resistors of resistance R5 = 3.00 Ω and R6 = 3.00 Ω are added to the network, and an additional resistor of resistance R7 =...
Consider the system shown in the single-line diagram of Figure 3. All reactances are shown in per unit to the same base. Assume that the voltage at both sources is 1 p.u. c- Find the fault current due to a bolted-three-phase short circuit in the middle of line 1- 3. [5 points d- Find the voltages at buses 1 and 2 under the fault conditions of part c above [5 points] 0.225 pu. 0.035 pu. 0.2p.u ? 0.15 p.u. 0.215...