1. Compute the total inductance between A and B. A B 2 H 6 H 3 H
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- You are a journeyman electrician working in an industrial plant. Your task is to connect an inductor to a 480-V, 60-Hz line. To determine the proper conductor and fuse size for this installation, you need to know the amount of current the inductor will draw from the line. The nameplate on the inductor indicates that it has an inductance of 0.1 H. An ohmmeter reveals that it has a wire resistance of 10 . How much current should this inductor draw when connected to the line?The value of the Inductance can be determined by (W - is energy stored in inductor, I - current) O a. ½ W21 O b. 2W/ 12 O c. 2WI2 O d. 2W21Two inductors of 20 mH and 10 mH are connected in series carrying a current of 1 A. Find the total energy stored. a. 15 ml b. 20 ml c. 30 ml d. 60 ml
- The value of the Inductance can be determined by V2 E2I, if 'E' is energy stored in inductor and 'I' is current flowing through inductor. Select one: O True O FalseSolve for the following: a. Equivalent capacitance of the combination b. Charge on each capacitor c. Charge on each combinationA resistance of 12 ohms and capacitance of 0.01 farad is connected in series with a 200 volts battery. Find the charge after 0.5 second and the current after 0.4 second
- Which of the statements below are correct I. Capacitors use electric field to store current. II. Inductance is increased with permeability of the core material. III. Capacitance of a capacitor decreases with the increasing permittivity of the dielectric. IV. Current of an inductor can not change abruptly. a. Il and IV b. I and || C. None d. III and IV e. Il and IIi. The equivalent inductance between A and B of the circuit shown in figure B2 is 4.67mH. Find the value of unknown inductor, L. L1 L4 2mH 1.5mH L3 7mH L5 14mH A LT -4.67MH B Figure B2 ii. Consider a coil with inductance, L'. Number of turns, 'N' and length of the coil, l". If the length of the coil is halved and number of turns is doubled, what will be the new value of inductance?The cell in the circuit has an emf of 2.0 V. When the variable resistor has a resistance of 4.0 N, the potential difference (pd) across the terminals of the cell is 1.0 V. What is the pd across the terminals of the cell when the resistance of the variable resistor is 12 Q? A 0.25 V 0.75 V C 1.33 V D 1.50 V
- a.) What is the current through the inductor immediately after the switch is opened? b.) What is the resistance in the circuit immediately after the switch is opened? c.) What is the current through each resistor immediately after the switch is opened? d.) What is the voltage across the inductor immediately after the switch is opened?Find the equivalent inductance between A and B if L, = 4 H, L2 = 2 H, L3 = 20 H, L4 = 12 H and L5 = 2 H. L1 L4 A L2 L3 LsDetermine the values of the following variables in Circuit A. a. V1 b. V2 C. V3 d. Q1 e. Q2 f. Q3 g. Total Capacitance, CT h. Total Charge, QT Determine the charge in each capacitor and the voltage across each capacitor in Circuit B. Vs 12 V Circuit A C1 100 μF C2 200 µF C3 5 µF C1 1 μF 1 µF Circuit B (V3 = 5V) C4 1 pF C5 1 µF