A circuit has a 12V battery, and three resistors of 42, 82 and 162. Draw the circuit with the resistors in series, and solve the VIRP table. Repeat #3 with resistors in parallel.
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- circuit with two batteries and six resistors. It should be possible to trace a path that contains one battery but not the other.Calculate the VIRP table for the circuit. You can ignore the resistances of the batteries.Resistor and RC Circuits Problem 12: Consider the circuit in the figure, with the current directions defined as shown. There are four resistors in this circuit (R1, R2, R3, and R4) and four batteries with emfs ℰ1 = 19.5 V, ℰ2 = 6.5 V, ℰ3 = 11 V, and ℰ4 = 22.7 V, each with internal resistance given by ri as marked in the figure. Part (a) Calculate the current I1 in amps. Part (b) Calculate the current I2 in amps. Part (c) Calculate the current I3 in amps.A Direct Current Circuit (DC-Circuit) is composed of two R = 100 2 resistors, which bare placed in series with a single D-Cell flashlight battery, with voltage V = 1.5 V. Assume that the battery is fully charged. Draw the circuit diagram that you would use to analyze this problem;
- For each of the three simple circuit boards you will need to calculate the total resistance Reg for the entire circuit board by using the measured resistances of each of the resistors, and the equations given to you in the theory section. Then using the applied voltage of 2V, as the theoretical voltage Vth for the entire circuit board you can calculate the theoretical current, ith, for the entire circuit board. Table 1(Resistors in series) R(Q) 310 10 100 200 Req 10Ω 1000 200Ω iex(A) 0.0074 0.0064 0.068 0.0064 0.650 0.0064 1.283 Using the equations for resistors in series calculate the theoretical voltages, and currents for each of the resistors, and the entire circuit. Use the measured values of the resistance in your calculations. Then calculate the % errors. Show work. Vex(V) 2.006 ith(A) Vth(V) % Error i % Error VI am working on RC circuits and I am able to solve things after the capacitor is charged but I am having trouble answering the question about what the current for resistor 1, resistor 2, and the capacitor immediately after the switch is connected. How do I solve for the current at these locations.In the circuit shown in figure 1, all the resistors are rated a maximum power of 1.00 W. What is the maximum emf epsilon that the battery can have without burning up any of the resistors?
- Resistor and RC Circuits Problem 6: A circuit consisting of 5 resistors is shown in the graph. Their resistances are R1=15Ω, R2=95Ω, R3=81Ω, R4=42Ω, and R5=33Ω, and the emf of the battery is ε=8.5 V. Suppose the internal resistance of the battery is zero. Part (c) Calculate the numerical value of the total resistance R in ohms. Part (e) Calculate the numerical value of I in amps. Part (g) Calculate the numerical value of the power dissipated by R1, P, in watts.Write down the Kirchhoff Junction equation and solve it for I, in terms of I, and I3. Write the result here: I1 Write down the Kirchhoff Loop equation for a loop that starts at the lower left corner and follows the perimeter of the circuit diagram clockwise. 0 = Write down the Kirchhoff Loop equation for a loop that starts at the lower left corner and touches the components 4V, R2, and R3. 0 = The resistors in the circuit have the following values: R1 = 13 N R2 = 6 N R3 = 2 N Solve for all the following (some answers may be negative): I1 Amperes I, = Amperes I3 = Amperes NOTE: For the equations, put in resistances and currents SYMBOLICALLY using variables like R1,R2,R3 and I,I2,I3. Use numerical values of 10 and 4 for the voltages.