Physics Laboratory Manual
4th Edition
ISBN: 9781133950639
Author: David Loyd
Publisher: Cengage Learning
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Textbook Question
Chapter 34, Problem 4PLA
Figure 34-5 Circuit for Questions 1 to 4.
What is the current in the 5.00 Ω resistor?
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Students have asked these similar questions
In the picture below there are 2 electromotive
force with a large voltage of 12.5 V and an
internal resistance of 0.75 Ohm arranged in
series. Furthermore, the circuit with a series of
resistance as shown in the picture.
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R₁=852
B
R=1602
·m
R$40
R₂=1602
mmm.
R₁=802
Calculate :
a. The total resistance of the circuit.
b. Strong current generated
www.
Refer to the given circuit.
R2 = 5 N
R1 = 6 N
R3 = 4 2
R4 = 4 N
R5 = 8 N
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DURACELL
VT = 10 V
How much voltage is present across resistor #1
(R1)?
Select one:
a. 10 volts
O b. 2.71 volts
C. 7.32 volts
d. 3.33 volts
R1
R,
V
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The circuit shown above has a 10 V battery connected to two resistors in series with R = 80 Q and R2 = 20Q. Select the correct current through resistor 1, I, and"
resistor 2, 12.
h=0.125 Amps 2=0.5 Amps
h= 0.05 Amps, 12= 0.05 Amps
O1=0.125 Amps, l2=0.05 Amps
O4= 0.1 Amps, l2= 0.1 Amps
3D0.3125 Amps, 2=0.3125 Amps
Chapter 34 Solutions
Physics Laboratory Manual
Ch. 34 - Prob. 1PLACh. 34 - Figure 34-5 Circuit for Questions 1 to 4. In the...Ch. 34 - Figure 34-5 Circuit for Questions 1 to 4. What is...Ch. 34 - Figure 34-5 Circuit for Questions 1 to 4. What is...Ch. 34 - Consider the circuit of Figure 34-6. Apply...Ch. 34 - Solve the three equations that you wrote in...Ch. 34 - Prob. 7PLA
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- Čr » ·d .... |||arrow_forwardSeries Circuit For nos. 1-4, refer to the diagram below. R₁ Question 1 Your Answer: Answer What is the total Resistance, RT, equal to if R1 = 750.0, R₂= 270.0, R3=3 -380.0 and the total voltage, V = 23.0? (Round you answers to 1 decimal places. Ex. 100.1) Question 2 R₂ ww Your Answer: V Answer R3 www What is the total current, IT, equal to if R₁ = 700.0, R2= 560.0, R3-550.0 and the total voltage, V = 18.0? (Round you answers to 3 decimal places. Ex. 100.001)arrow_forwardR₁ -W C R₂ V b Figure 2: An RC circuit a) Calculate the current flowing through R₁ immediately after the switch is at position a.arrow_forward
- R, I, YI3 R2 73 A. E2 - IR2 – IR3 = 0 B. E2- I3R2 + HR3 = 0 C. Ei + E2 + HR3 = 0 D. Ei + E2 - LR3 = 0 E. E1- hR1 – »R3 = 0 Which of the following equations describes a loop rule applied to the circuit in the image above? O E C Aarrow_forwardFrom the following circuit, calculate using simulation: 1. Total Current 2. Potential difference at each end of the resistance 3. The amount of current that passes through resistance 2 and resistance 3 R₁-20 R₂-302 www R₁-602 ww Hr V- Woltarrow_forwardM 1 Ω 11 V 3 W Ω 16 V a. Write Kirchhoff's junction rule for all junctions in the circuit. b. Write Kirchhoff's loop rule for all the loops in the circuit. c. Solve the circuit by finding the values of all the currents. 2 Ω mi M In this assignment you will be following the problem solving strategy for Kirchhoff Rules. 1. Reproduce, as neatly as possible, on paper, the circuit shown above. Do not make the circuit too small as you will have to add things to it later. 2. Label all relevant points in this circuit. For your benefit these points are marked with dots in the Figure above and they include: circuits junctions (i.e. places where 3/more wires connect), wire "corners" (i.e. places where a single wire is bent), and locations between two components on a single straight wire. These will help identify loops as well as making it easier to keep track of potential differences. Use lower case letters (a, b, c, ...) for this task. 3. For each junction draw and label the currents coming in…arrow_forward
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