Consider the circuit shown in the figure where R1 = R2 = 225 Ω , L1 = 25 mH , L2 = 50 mH , C = 1.25 μF ,V0 = 85 V , and ω = 60 s−1 . (Figure 1)
1. Find the power dissipated by R1.
2. Find the power dissipated by R2.
3. At what frequency or frequencies will both resistors dissipate the same power?
If you need to enter more than one answer, enter them in ascending order, separated by commas.
4. What is the rms current delivered by the power supply at extremely low frequencies?
5. Find the rms current delivered by the power supply at extremely high frequencies.
Consider the circuit shown in the figure where R1 = R2 = 225 Ω , L1...
Four resistors, R1 = 17.1 Ω, R2 = 39.8 Ω, R3 = 95.1 Ω and R4 = 20.0 Ω are connected to a 12.0 V battery as shown in the figure. Determine the power dissipated by resistor R2.
Four resistors, R1 = 18.1 Ω, R2 = 37.8 Ω, R3 = 91.6 Ω and R4 = 19.0 Ω are connected to a 18.0 V battery as shown in the figure. Determine the power dissipated by resistor R2.
Question 2 In the figure R1 = 5.72 Ω, R2 = 17.2 Ω, and the ideal battery has emf ε = 10.3 V. (a) what is the magnitude of current i? (b) How much energy is dissipated by all four resistors in 2.31 min? RI R2 R2 R2 (a) Number Units (b) Number Units
In the circuit below, R1-42 Ω R2-82 Ω R3-137 Ω R4 43 Ω R5-219 Ω and the voltage supplied by the power supply is V1 R1 R2 R5 R3 R4 What is the current flowing through resistor R1? Submit Answer Tries 0/20 What is power dissipated by resistor R1? Submit Answer Tries 0/20
Four resistors, R1 = 17.1 Ω, R2 = 45.3 Ω, R3 = 86.1 Ω and R4 = 21.5 Ω are connected to a 16.5 V battery as shown in the figure. Determine the power dissipated by resistor R2. Submit Answer Tries 0/99
In the figure R1 = 7.61 Ω, R2 = 22.8 Ω, and the ideal battery has emf ε = 10.8 V. (a) What is the magnitude of current i1? (b) How much energy is dissipated by all four resistors in 1.26 min? 8 RI Ry RY RO
Consider the circuit below with three resistors Two resistors, R2 (10 Ω) and R3 (10 Ω) are connected in parallel to another resistor R1 (5 Ω). And the circuit is connected to a 20 V power supply 9. Find the equivalent resistance (R) of the circuit shown above. (3 pts) Answer 10. Find the current that goes through R1. (4 pts) Answer 11. Find the potential difference through resistors in parallel (R2 and R3). (4 pts) Answer
Consider the circuit shown in the figure with resistors R1= 4.0 Ω, R2= 3.0 Ω, R3= 3.0 Ω, and batteries V1= 2.0 V, V2=1.5 V respectively. What is the potential drop (voltage) across resistor R3?
Consider the circuit shown in the figure below. (Assume R1 = 12.0 Ω and R2 = 7.00 Ω.)(a) Find the potential difference between points a and b. (b) Find the current in the 20.0-Ω resistor.
Consider the circuit shown in the figure below. (Assume R1 = 15.5 Ω and R2 = 4.50 Ω.) (a) Find the potential difference between points a and b. V (b) Find the current in the 20.0-Ω resistor. A