The drawing shows three different resistors in two different circuits. The battery has a voltage of V = 24 V, and the resistors have resistances of R1 = 50.0 0, R2 = 25.0 0 and R3 = 10.0 O. Determine the current through and the voltage across each resistor. R2 (b) (a)
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- Four identical capacitors are connected with a resistor in two different ways. When they are connected as in part a of the drawing, the time constant to charge up this circuit is 0.72 s. What is the time constant when they are connected with the same resistor as in part b? R C с Number i R www C + (b) UnitsFor the circuit shown in the figure, determine the magnitude of the currents 12, 13, and 14 passing through batteries 2, 3, and 4, respectively. In each case, determine whether the battery is supplying power or being charged. The batteries and resistors in the circuit are assumed to be ideal and have the given properties. 8₁ = 30.0 V 82=4.50 V 83 = 22.5 V 84 = 1.50 V R₁ = 25.02 R₂ = 20.0 2 R₁ = 79.0 2 11 Incorrect 0.36 Incorrect 4.36 Incorrect A ww R₂ Battery 2 is being charged. O supplying power. Battery 3 is O supplying power. O being charged. Battery 4 is supplying power. being charged. www mit R₂ 8₂ R₁ wwIn the figure, three resistors are connected to R3 = 8.9 0. The current through resistor R3 is 7.25 mA. ideal emf device. The resistances are R1 = 10.4 Q, R, = 21.5 Q, and R R2 R3 (a) What is the current through the other two resistors? I = mA I2 = (b) What is the terminal potential of the emf device? V
- Assume the capacitor in the circuit is initially uncharged. A) Calculate the current through each resistor right after the circuit is connected. B) Now let’s say, the circuit has been connected and left alone for a long time.Calculate the charge on the capacitor plate.The circuit in the figure below contains two resistors, R, 2.20 kN and R, = 3.10 kN, and two capacitors, C, = 2.10 µF and C, = 3.10 µF, connected to a %D battery with emf & = 115 V. There are no charges on the capacitors before switch S is closed. R1 C1 7. R2 C2 3. (i (a) Determine the charge on capacitor C, as a function of time (in ms), after the switch is closed. (Use the following as necessary: t.) -t 5.15 HC 9, = %3D 598 1–e (b) Determine the charge on capacitor C, as a function of time (in ms), after the switch is closed. (Use the following as necessary: t.) HC 92 %3DThree 100 resistors are connected as shown in the figure. The maximum power that can safely be delivered to any one resistor is 29.0 W. 100 Ω a 100 Ω ww 100 Ω (a) What is the maximum potential difference that can be applied to the terminals a and b? V (b) For the voltage determined in part (a), what is the power delivered to each resistor? resistor on the left W W resistor at the top of the loop resistor at the bottom of the loop W (c) What is the total power delivered to the combination of resistors? W
- In the following circuit, == V₁ = 109 V and V2 = 109 V R₁ = 150 and R2 = 25 2 and R3 = 9Q Find the current that passes through R2 (all aslo passes through V2) R₁ ww R₂ ww V₁ Your Answer: ww R₁ V₁₂ Q Search NEWConsider the circuit shown in the figure below. (Assume R₁ = 14.0 and R₂ = 7.50 .) b 25.0 V R₁ R₁ Submit Answer a R₂ (b) Find the current in the 20.0-0 resistor. A R₂ C (a) Find the potential difference between points a and b. V 20.0 Ω ℗The drawing shows three different resistors in two different circuits. The battery has voltage of V = 26V, and the resistors have resistances of R one = 50.0, 2 = 25.0 and 3 = 10.0 determine the current through the voltage across each resistor. For circuit you’ll have six parts to the answer: l1,l2,l3, V1, V2, V3. For circut B you will have 6 parts to the answer: l1, l2, l3, V1, V2, V3.