Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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- In the above circuit, the switch is open for a long time.i)The switch closes for 50 us. What is the current through the inductor? Also, what is the voltage at the output with respect to ground just before the switch open?ii) The switch closes. What is the maximum current the inductor will see?arrow_forwardYou want to connect a capacitor as shown above to create a DAC. If the Arduino has a period of 5 ms . what value C (in μF) should you choose for your capacitor?arrow_forwardAssume the passive sign convention. Consider the current waveform. -1 daptive SYNC i(1) (A) 2 10 -2- 1 2 3 - r(s) Determine the voltage across a 2.4 F capacitor. (You must provide an answer before moving on to the next part.) The voltage across the 2.4 F capacitor is -- V. Q Search **** 1/0 ceciet JAarrow_forward
- What values of capacitance can be obtained by interconnecting a c1-4-µF capacitor, a c2= 6-uF capacitor, and a c3= 12-µF capacitor? O a 22 u O b. 8 uF Oc 2uF O d. 3.27 uF Oe. None of them CI C2 C3arrow_forwardAn inductor is connected in parallel with a 120Ω resistor and a function generator. The applied voltage is 25V RMS and the total current for the circuit is 510mA RMS. Find the magnitude of the current through the inductor.arrow_forward4) Based on the circuit to the right answer the folowing questions. SHOW ALL WORK Switch is closed for the capcitors STEADY STATE (a) The equivalent capacitance and resistance is (0) 20UF c2 () () (iv) 26ul, 19KQ 5.0uF,6.0k2 25pF, 3 0ko 15uF.14ko 12V C3 TRI 12k0 R2 R3arrow_forward
- Find the voltage across and the charge on each capacitor in the following network. C₁ C3 300 pF 500 pF- QT = 18000 PC C2 C4 600 pF 500 pF-arrow_forwardISMA 3K un 3K un + Vs 7mH 3√1₂ Im mn SmH -+ 20 V t IMF Vc What is Vs. iz Ve at steady-state?arrow_forwardIn the diagram below, the switch S has been closed for a long time. A) What is the output voltage Vout? What is the charge on the capacitor? b) The switch is opened, so the output voltage increases. What is the time constant that describes the charging of the capacitor in terms of R and C? c) When Vout reaches 10 V, the switch closes and the capacitor begins to discharge. What is the time constant that describes the discharging in terms of R and C? Hint: Apply Kirchhoff's Rules to both loops and the sum of the currents at the junction above the capacitor in the diagram, and use I=dq/dt. If the switch opens when Vout reaches a lower value, say 5V, the capacitor will charge again, and thus one can cycle the voltage with a time constant determined by the circuit: this demonstrates the principle of operation of an electronic timer. 4R S 15 V Vout Rarrow_forward
- Switch S in in the figure is closed at time t = 0, to begin charging an initially uncharged capacitor of capacitance C= 17.9 µF through a resistor of resistance R = 22.7 Q. At what time is the potential across the capacitor equal to that across the resistor? Number i Units S R Carrow_forwardThe illustration shows four capacitors that are connected together in a so-called capacitor bridge. Initially, the capacitors are uncharged. Which relationship must hold between the four capacitances so that the voltage between points c and d remains zero when a voltage U is applied between points a and b?arrow_forwardRegarding this circuit I was wondering what is the current / voltage relationship with the inductor and capacitor ?arrow_forward
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