olve for the Req, individual currents and voltage drop across each resistors from the given circuit diagram below. 8 Ω www 8 Ω 3 Ω 10 Ω 8 Ω tum 12V 10 Ω 6 Ω
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- Consider the circuit shown in Figure P28.21 on page 860. (a) Find the voltage across the 3.00-0 resistor, (b) Find the current in the 3.00-12 resistor.What is the maximum voltage that can be applied to a 10k resistor rated at 14W?What is the equivalent resistor, in units of Ohm, between the terminals a and b if you replace R1 by 4 Ohm, R2 by 1 Ohm and R3 by 5 Ohm resistor? Your result must contain two decimal places. Maximum of 5% of error is accepted in your answer.
- The circuit below has two batteries, each with an emf and an interval resitance, and 2 resistors. Find a. the current in the circuit; b. the potential difference Vab; and c. the power output of the emf of each batterycan you answer with given, formula, and solution labelled? thank you very muchQ3/ Find out currents through all the resistors and voltages across all resistors using Mesh analysis. Ra=9 Rb =6 Rc = 15 Vp=11 Vq =6Calculate the voltages and the currents for the resistors R1= 10KΩ, R2= 1000 Ω, R3=2,7KΩ, and R4=2,2KΩ using the voltage divider rule.
- 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?In the circuit shown in figure 1, epsilon is equal to 41.0 V, R1= 4 ohms, R2= 6 ohms, and R3= 3 ohms. (A) what is the potential difference Vab between points a and b when the switch S is open? (B) for the 4 ohm resistor, calculate the current through the resistor with S open. (C) for the 6 ohm resistor, calculate the current through the resistor with S open. (D) for the 3 ohm resistor calculate the current through the resistor with S open. (E) what is the potential difference Vab between points a and b when the switch S is closed? (F) for the 4 ohm resistor calculate the current through the resistor with S closed. (G) for the 6 ohm resistor calculate the current through the resistor with S closed (H) for the 3 ohm resistor calculate the current through the resistor with S closed. (I) for each resistor, does the current increase or decrease when S is closed?Can you pls help me solve this. 5 resistors are connected as shown in the figure. The voltage on AB is 30V and the total resistance is 2 ohms. The voltage across resistor 1 is 14.25V and the current passing resistor 3 is 6 amperes. Determine the total current of the circuit and all other unknowns (r4 = 6 ohms, r5 = 10 ohms) Solve for: (d) voltage across R4 (e) voltage across R2 (f) voltage across R3 (g) Total current *Pls refer from the photo attached* •Pls answer with complete and detailed solution (3 decimal places all final answers with correct units) •Sketch an illustration/diagram with labels (this is a must; for a better understanding) Thank you I will give your answer a LIKE for helping me...
- For the bridge circuit shown below, consider ?1 = 4Ω, ?2 = 6Ω, ?3 = 2Ω, ?4 = 7Ω, ?5 = 5Ω, and calculate the following: a) The current flowing in each resistor. b) The equivalent resistance of the circuit across the battery.In the circuit shown in figure 1, epsilon is equal to 41.0 V, R1= 4 ohms, R2= 6 ohms, and R3= 3 ohms. (D) for the 3 ohm resistor calculate the current through the resistor with S open. (E) what is the potential difference Vabbetween points a and b when the switch S is closed? (F) for the 4 ohm resistor calculate the current through the resistor with S closed. (G) for the 6 ohm resistor calculate the current through the resistor with S closed (H) for the 3 ohm resistor calculate the current through the resistor with S closed. (I) for each resistor, does the current increase or decrease when S is closed?Directions: Complete the table by providing the values for Vab, Vac, Vbd, and Vcd. Refer to Figures 3a and 3b. Note that an ideal voltmeter has infinite resistance while an ideal ammeter has zero resistance. You may need to compute for the current in the circuit to find the unknown voltages.