2. What is the v,(t) in the circuit below. Assume Vs (t) = 10 sin(2000nt). 10 2 ww 10 23 v,() 4 V
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What is the V0(t) in the c
rcut below. Assume Vs(t) = 10sin(2000π t)
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- 11 6. For the circuit shown in the figure next, the value of (equivalent inductance) L T is found to be * Figure L1 None of the choices O 1.5 2.510 Ohm resistance in parallel with 50 uF capacitance and the current through the capacitance is: ic (t) = 2sin100t + 1.5sin200t + 1.2 sin400t A, find the total dissipated power by the circuitDetermine the current through the 260mH inductor in the circuit shown in the figure and choose the solution from the options given. 0.7, ángulo de -2.9° 0.9, ángulo de -19.8° .52, ángulo de -23.1° 0.338, ángulo de 303⁰ 65 Ω 85mH 150 sin(2π 100t) mn 200 Ω 260mH 28 75 카 120 Ω 50uF
- 9. Recall that Kirchhoff's laws help to get the current in circuits. Consider the following circuit: L R I(t) C +q(t) -q(t) Ignore the alternating power for this problem. a) What is the voltage over the resistor if it has a resistance of R ohms and the current is I ampere? b) What is the voltage over the capacitor if the capacitance is C and the charge on the capacitor is q. c) What is the voltage over the inductor if it has an inductance of L Henry? The answer must be in a form of a differential equation.10 resistance in parallel with 50 uF capacitance and the current through the capacitance is: ic (t) = 2sin100t + 1.5sin200t + 1.2 sin400t A, find the total dissipated power by the circuit.A series circuit consists of a resistor, a coil, and a capacitorconnected across a 300V, 60Hz AC source. The current drawn is 20A.The voltage across the resistor is 60V, that across the coil is 260V andthat across the capacitor is 100V. The resultant voltage across the coiland the capacitor is 254.56V. Determine (a) the resistance of theresistor, (b) the resistance and inductance of the coil, and (c) theresistance and capacitance of the capacitor.
- I am trouble understanding this circuit. Here, R= 25.0 ohms, L=30.0 mH and C=12.0µF. Additionally the amplitude and frequency of the source voltage are 20.0 V, and 500 Hz. a) I would like to find the impedance for the circuit and the amplitude of current. b) I would like to find the amplitude of voltage across the resistor, inductor, and capactitor. Any help and guidence would be greatly appreciated :). An inductance of 15mH has a current drawing I = 15sin(650t - 300) A. Determine the equation of voltage in the circuitIn the following figure, the switch is left in position a for a long time interval and is then quickly thrown to position b. Find and rank the magnitudes of the voltages (V, VL, VRI, Vr2) across the four circuit elements a short time thereafter from the largest to the smallest. Vs 12.0 V 2.00 H 1 200 0 VRI 12.0 0 Vr2
- A series RC circuit consist of R = 2 mega-ohms and an uncharged capacitor C = 5 micro farad. The circuit is connected across a 100 V dc source at t = 0. Determine the voltage across the resistor 5 seconds later.-10t An electric motor can be modeled as a series combination of a 17- resistor and 200-mH inductor. If a current i(t) = 2te¯ A flows through the series combination, find the voltage across the combination. The voltage across the combination is te-10tv. +5. Suppose the following circuit is left open for a long time. 5000 22 24 V (a) What is the facial curren What is the carte II What is the ches What is the not the pos 80mF when we close thei 90s after we close the switch? dissipe the resistor 90s arter ene capacitor ons after we close the suit Close the switchi difference across the spacitor 008 after we close the switch across the resisto we close the swit 12 the potential (g) What is the energy stored in the capacitor 90s after we close the switch? (h) What is the energy dissipated by the resistor during the first 90s since the switch is closed?