Consider the circuit shown in the figure below. (Assume R₁ = 10.5 2, R₂ = 3.10 2, and V = 6.30 V.) R₁ R₂ www 5.00 Ω www + V 4.00 Ω 3.00 Ω www i (a) Calculate the equivalent resistance of the R₁ and 5.00- resistors connected in parallel. 22 (b) Using the result of part (a), calculate the combined resistance of the R₁, 5.00- and 4.00- resistors. 2 (c) Calculate the equivalent resistance of the combined resistance found in part (b) and the parallel 3.00-2 resistor. Ω (d) Combine the equivalent resistance found in part (c) with the R₂ resistor. Ω (e) Calculate the total current in the circuit. A (f) What is the voltage drop across the R₂ resistor? V (g) Subtracting the result of part (f) from the battery voltage, find the voltage across the 3.00-2 resistor. V (h) Calculate the current in the 3.00- resistor. A

College Physics
11th Edition
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Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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Consider the circuit shown in the figure below. (Assume R₁ = 10.5 , R₂ = 3.10 , and V = 6.30 V.)
R₁
www
R₂
5.00 Ω
www
+
4.00 Ω
3.00 Ω
www
(a) Calculate the equivalent resistance of the R₁ and 5.00- resistors connected in parallel.
2
(b) Using the result of part (a), calculate the combined resistance of the R₁, 5.00- and 4.00- resistors.
Ω
(c) Calculate the equivalent resistance of the combined resistance found in part (b) and the parallel
3.00- resistor.
Ω
(d) Combine the equivalent resistance found in part (c) with the R₂ resistor.
Ω
(e) Calculate the total current in the circuit.
A
(f) What is the voltage drop across the R₂ resistor?
V
(g) Subtracting the result of part (f) from the battery voltage, find the voltage across the 3.00- resistor.
V
(h) Calculate the current in the 3.00- resistor.
A
Transcribed Image Text:> Consider the circuit shown in the figure below. (Assume R₁ = 10.5 , R₂ = 3.10 , and V = 6.30 V.) R₁ www R₂ 5.00 Ω www + 4.00 Ω 3.00 Ω www (a) Calculate the equivalent resistance of the R₁ and 5.00- resistors connected in parallel. 2 (b) Using the result of part (a), calculate the combined resistance of the R₁, 5.00- and 4.00- resistors. Ω (c) Calculate the equivalent resistance of the combined resistance found in part (b) and the parallel 3.00- resistor. Ω (d) Combine the equivalent resistance found in part (c) with the R₂ resistor. Ω (e) Calculate the total current in the circuit. A (f) What is the voltage drop across the R₂ resistor? V (g) Subtracting the result of part (f) from the battery voltage, find the voltage across the 3.00- resistor. V (h) Calculate the current in the 3.00- resistor. A
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