R, V=? R2 Cz CAPS fully changed
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You didn’t get a DC circuit on the second exam so here is one to make up for it. Hint: if two capacitors are in series, they must have the same charge. Find the electric potential at the point indicated in the diagram. The capacitors are fully charged.
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- For the circuit shown, AVbattery = 28 V, R₁ = 5.0 02, R₂ = 5.0 2 and C= 4.5 F. The capacitor is initially uncharged and the switch is open. What is the charge on the capacitor a long time after the switch is closed, in Coulomb? Your answer needs to have 2 significant figures, including the negative sign in your answer if needed. Do not include the positive sign if the answer is positive. No unit is needed in your answer, it is already given in the question statement. R₁ www R₂ www CIn the figure below, V = 12V, C1 = 10μF, C2 = 20μF, and C3 = 30μF. Assume the voltage source V as been connected for a long time (so all the capacitors are fully charged). (a) What is the equivalent capacitance of the entire circuit? (b) What is the charge on each capacitor if they are fully charged? (c) What is the potential difference across each capacitor if they are fully charged? (d) What is the potential energy stored in each capacitor when they are fully charged?Four capacitors are arranged in the circuit shown in the figure. The capacitors have the values C₁ = 24.5 µF, C₂ = 45.5 µF, C3 = 50.5 µF, and C4 = 40.5 µF, and the power supply is at voltage V = 26.5 V. What is the equivalent capacitance of the circuit? equivalent capacitance: What is the charge on capacitor C₂? charge on C₂: What is the potential difference across capacitor C3? potential difference across C3: What is the potential energy stored in capacitor C4? potential energy stored in C4: HF с V J V C3 C₁ C₂ C₁
- Find the net capacitance (in µF) of the combination of series and parallel capacitors shown below. 3.0 µF 7.0 µF 7.5 µF 2.5 µF 0.55 µF 14 µFFor the given configuration of capacitors (see the Figure 3 below), where the voltage of the battery attached is ∆? = ?? ?, find out: What is the equivalent capacitance of the system? What is the Energy stored in the system?Activity 11: Network of Capacitors V = 20V Solve for the (a) equivalent capacitance (b) charges on each capacitor (c) voltage across each capacitor of the capacitor network on the right. Draw the equivalent circuit for each step. a C, = 10µF C2 = 5µF C3 = 3µF
- Determine the total capacitance, total voltage, total charge, individual voltage drop and charges across each capacitor in the given circuit. Please answer the table and the required. Also, please box the final answers.For the combination of capacitors shown in the figure a) What is the equivalent capacitance, in microFarads, of the left-most pair of capacitors? b) What is the equivalent capacitance, in microFarads, of the pair of capacitors in the lower, right corner of the circuit? c) What is the equivalent capacitance, in microFarads, of the full configuration? Use two decimal places for each answerA portion of a larger circuit is shown in the diagram below. The potential drop between points b and a is Vba = 4.0 V. Similarly, Vcb =3.5 V, Vcd = 2.0 V, Vdf = -0.5 V. Here, if Vba is greater than zero, then a is at a higher potential than b. Answer the following questions in SI units. 1. What is the potential difference Vgf? 2. What is the potential difference Vca? 3. What is the potential difference Vag?
- Physics Question: Please take a look at this question and answer the following! Thank you so much!All six capacitors have equal value of 10.0 µF. Determine: a. The equivalent capacitance if measured between points A and B – that is, if the probes of the LCR meter are placed across points A and B, what will the meter show, and b. If a power supply is now attached to the points A and B and set to 20.0 volts, what charge will appear on C1 and what will be the potential difference across C1? C2 C1 C3 C4 C5 C6a) The network of capacitors shown in the image are all uncharged when a 364V potential is applied between points A and B with the switch S open. How much energy is stored in the network of capacitors? b) The network of capacitors shown in the image are all uncharged when a 185V potential is applied between points A and B with the switch S open. What is the voltage across the lower right 2.0µF capacitor when all of the capacitors are fully charged?