Figure P3.3 50 mA Ο 5 V - 18 Ω 10 ΚΩΣ 100 Ω Σ 5 ΚΩ www (a) 2 kΩΣ 9 ΚΩ www 10 Ω (b) 40 Ω 25 ΩΣ 22 Ω 6ΚΩ {18 ΚΩ
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- A0.5-µF capacitor has a voltage waveform v(t) as shown in Figure P3–7. Determine and plot the current waveform i(t). 3-7 v(t) FIGURE P3–7 60 V 40 V 2 6. 10 12 t, msCalculate values of asked physical quantities of the circuit in the figure. What is the capacitance of system 23? C23 C₁ = 3.0 F What is the capacitance of system 123? C123 = F C₁ = 2.0 F What is the capacitance of system 45? C45 = F Your last answer was interpreted as follows: 1 Your last answer was interpreted as follows: 1 What is the charge in the capacitor system? C Your last answer was interpreted as follows: 1 What is the total capacitance of the system? F Value 8.8500 x 10 EO Quantity permittivity of free space capacitance capacitance capacitance capacitance capacitance Your last answer was interpreted as follows: 1 capacitance of system 23 capacitance of system 123 capacitance of system 45 Your last answer was interpreted as follows: 1 Do not leave any fields blank. If you don't know the answer, insert 1 for example. Insert the answer with 3 significant digits without rounding the answer. Constant U = 7.0 V Unit E Symbol €0 C₁ = 3.0 F C1 C₂ C3 C4 C5 C23 C₂ = 9.0 F C₂ = 3.0 F…Time left 0 A resistor of 42 ohm is connected in series with a capacitor of 50 micro farad. if a supply of 240 V, 60 Hz is connected across the arrangement then the current flowing in the capacitor is. O a. 3.14 A O b. 35.4 A O c. 31.4 A O d. 3.54 A
- The circuit in the figure below contains two resistors, R1 = 4.00kΩ and R2 = 5.00kΩ, and two capacitors, C1 = 4.00uF and C2 = 5.00uF, connected to a battery with emf E = 120V. If no charges exist on the capacitors before switch S is closed, determine the charge q1 on capacitor C1 1.00ms after the switch is closed. Determine the charge q2 on capacitor C2 1.00ms after the switch is closed.Q1: For the circuits shown in figures. If the temperature has changed from 25°C to 65°C, find Alc. Ic=1.5mA at 25°C, Rf 250k2, Rc=1k and Re-0.5k2. 25°C 65°C +Vcc 55 70 Rf Rc Ico InA 16nA VBE 0.6 0.5 Resiven: C1-1uF, C2»2uF, C3= 3uF, C4= SuF. C5= 9uF, V»50 v C2 C1 C3 CS VDC1 a) The total capacitance of the circuit b) The total charge delivered by the source, c)The potential difference across C3
- For the circuit in Figure: 1) Set up the equation for the upper supermesh. Response format: Ai1 ± Bi2 ± Ci3 ± Di4 = E 2) Set up the auxiliary equation for the top supermesh. Response format: Ai1 ± Bi2 ± Ci3 ± Di4 = E 3) Set up the equation for the lower supermesh. Response format: Ai1 ± Bi2 ± Ci3 ± Di4 = E 4) Set up the auxiliary equation for the lower supermesh. Response format: Ai1 ± Bi2 ± Ci3 ± Di4 = E 5) What is the value of ix in A?2) a)For the following circuit find the total capacitance and inductance and hence find the total impedance of the circuit. V1 230V/50Hz E R1 350 C1 4700pF HE C2 10nF HH C3 47nF C4 220nF HH L1 72mH L2 32mH All Resistance in OhmsQ1 (a) For the circuit in Figure Q1(a), the total charge, Q. is 0.0018 C. (i) Find the value of capacitance, C2 (ii) Calculate the voltage, Vi across capacitor C. (iii) Determine the charge, Qa stored in capacitor C4 C1 Qt +V- 40μF C3 C2 10F 10uF C4 90 V Figure Q1(a)
- An R-C series circuit has a supply voltage of 100 V. The resistance is 200 ohms and the capacitance is 0.0001 Farad. Solve for the current "i" at any time "t". Solve for the charge "q" at any time "t".For the circuit shown, fill in the ff. table with its appropriate values. Show complete solution. C2 4uF ci ZuF C4 10uF C3 6uF 600 v CAPACITANCE VOLTAGE CHARGE ENERGY C1 = 2 uF C2 = 4 uF C3 = 6 uF C4 = 10 uF CT = VT = 600 V Qt = ET =O 3G l. 3:09 moodle.najah.edu a МOODLE Recent - P Flag question The capacitors in figure, are initially uncharged. The capacitances are C1 = 4 µF, C2 = 8 µF, and C3 = 12 µF, and the battery's potential difference is V = 12 V. When switch S is closed, how many electrons travel throght point c S а C2 C1 C3 d Select one: a. 3 x 1014 b. 3 x 10-14 O c. 1.5 x 1014 O d. 48 O e. 13 x 1014 Next page