QUESTION 2 a o bo FIGURE LINK C1 C2 6 μF 4 μF 3 μF Determine the equivalent capacitance at terminals a-b of the circuit shown above. Assume that C1 = 19 μF, and C2 = 10 uF. Write your answer in micro-Farad. 12 μF
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- You are an electrician working in an industrial plant. You discover that the problem with a certain machine is a defective capacitor. The capacitor is connected to a 240-volt AC circuit. The information on the capacitor reveals that it has a capacitance value of 10 mF and a voltage rating of 240 VAC. The only 10-mF AC capacitor in the storeroom is marked with a voltage rating of 350 WVDC. Can this capacitor be used to replace the defective capacitor? Explain your answer.A 15-F AC capacitor is connected in series with a 50 resistor. The capacitor has a voltage rating of 600 WVDC. The capacitor and resistor are connected to a 480-V, 60-Hz circuit. Is the voltage rating of the capacitor sufficient for this connection?You find that a 25-F capacitor connected to 480 VAC is defective. The storeroom has no capacitors with a 480-VAC rating. However, you find two capacitors rated at 50 F and 370 VAC. Can these two capacitors be connected in such a manner that they can replace the defective capacitor? If yes, explain how they are connected and why the capacitors will not be damaged by the lower voltage rating. If no, explain why they cannot be used without damaging the capacitor.
- You are working in an industrial plant. You have been instructed to double the capacitance connected to a machine. The markings on the capacitor, however, are not visible. The capacitor is connected to 560 volts and an ammeter indicates a current of 6 amperes flowing to the capacitor. What size capacitor should be connected in parallel with the existing capacitor? What is the minimum AC voltage rating of the new capacitor? What is the minimum DC voltage rating of the new capacitor? What is the minimum KVAR size that can be used in this installation?C3 Vin \aov AC Cr D3 Vin Voat /calculate Vout and explain the followingcircait. ALl capacitor 0,4MF And Calculate the energy trapped in each capacitor and the total energy trapped in the circuit ellFor circuit given in figure 5, find total capacitance and total charge. C1 = 20pF C2 = 30pF 5V C3 = 30pF C5 10pF C4 = 30pF Figure 5
- A series R–L–C circuit comprises a 5µF capacitor, a 4ohm resistor and a variable inductance L. The supply voltage is 10∠0◦ V at a frequency of 159.1 Hz. The inductance is adjusted until the p.d. across the 4 ohm resistanceis a maximum. Determine for this condition (a) the value of inductance, (b) the p.d. across each component and (c) the Q-factor of the circuit.ion e Select the value of C to produce the desired total capacitance of C+=2μµF in the circuit. CT O a. 6 uF O b. 12 uF O c. 5/3 uF O d. O e. C₁-2μF 3 uF None of them HE C C₂-4uFFind the total capacitance CT for the given circuit below using the given values of C116 µF, C296 µF, and C394 uF. Write your answer up to 3 decimal places. Do not use unit in the answer. Just write your calculated answer with up to 3 decimal places. up C3 Ст C2
- 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-Capacitors C1 = 10.33 uF and C2 = 10.77 uF are connected in series. After some time, the engineer decided to connect capacitor C3 = 4.93uF across C1 and C2. Find the total charge, in uC, of the group of capacitors if they are connected across 18.13 V battery.10 mH jok a resistor, capacitar eard inductor measure the resistoane R using Use to an ohm metere Measure the time constants for the two circuits below and find values of C and L I need help vith the building of this. circuit. 1f you could make them ánd find ans wer to the question abore, I would the C appretiate it gieatly