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- Suppose that the current in a typical circuit (DC) is large. This is an indication that ____. a. the mobile charge carriers are moving very fast b. a large number of mobile charge carriers are moving forward per second c. both a and b are trueIt takes 2.27 ms for the current in an LR circuit to increase from zero to 0.73 its maximum value. Part A Determine the time constant of the circuit. Express your answer to two significant figures and include the appropriate units. ? Value Units T = Submit Request Answer Part B Determine the resistance of the circuit if 33.0 mH . Express your answer to two significant figures and include the appropriate units. HA ? R = Value Units Submit Request AnswerQUESTION 20 In a DC circuit with a single resistor, a current of 13 Amperes flows through a point in the circuit. After a time of 10 minutes, which of these expressions yields how much charge has flowed through the point in this time in SI units? a. 13 divided by 10 b. 13 times 600 c. 13 times 10
- Solve a-d3Ω a ↓ 2.02 12 V ww+H T Travel. I ww 4Ω 4V b 70216. You see a group of small fuse holders on a DIN rail in an industrial control cabinet. The fuse holders are in groups of five and are separated by a single terminal block. What's connected to that terminal block? A. System ground B. A control signal C. The AC or DC power to the fuses D. The power supply neutral 17. Which one of the following types of raceway offers the greatest protection for the conductors in the raceway? A. Metal wireway B. EMT conduit C. Rigid conduit D. Flexible conduit 18. Class 1 conductors or cables may be run with other Class 1 conductors if they all A. are part of different machine circuits. B. have different power supplies. C. have reduced voltages on the conductors. D. have the same insulation value.
- 26. Consider the circuit below. The capacitor C is initially uncharged, and the switch is put to position a. a) How long will it take the capacitor to achieve one half of its maximum charge? Give your answer in terms of R and C. b) How long will it take the capacitor to achieve one half of its maximum energy? Give your answer in terms of R and C.1. What equation do you get when you apply the loop rule to the loop abcdefgha, in terms of the variables in the figure? 2. If the current through the top branch is I2 = 0.41 A, what is the current through the bottom, I3, in amps?G₁ R₁ www R3 The figure above shows a circuit with R₁ = C₂ = 10.0μF, and the ideal battery has emf & state. = 5.00, R₂ 20.0 V. R₂ = www C₂ 10.0Ω, R3 15.092, C₁ 5.00μF, Assume that the circuit is in a steady = = (a) Explain what we mean when we say that "a circuit is in a steady state," and what this assumption specifically implies for the circuit under consideration. (b) Find the current through the battery. (c) Find the voltage across C₁. (d) Find the voltage across C₂.