5. 02 1. If ε = 24 V, at what rate is thermal energy generated in...

Question

Question

5. 02 1. If ε = 24 V, at what rate is thermal energy generated in the 5 12 resistor shown in the circuit? Ans: 3.2 W 102 100

Answer 1

Answer #1

Parallel -5 lan los 72 series Rish R-5uAR =5+5rilor 3R=10_2 low Apply kirchoffestoop rule in loop L-11101) – (I l0n) = 0 gur

Answer 2

Similar Homework Help Questions

What is the rate at which thermal energy is generated in the 30-Ohm resistor shown?

What is the rate at which thermal energy is generated in the 30-Ohm resistor shown?
A resistor with a 15.8 V potential difference across its ends develops thermal energy at a rate of 324 W.

A resistor with a 15.8 V potential difference across its ends develops thermal energy at a rate of 324 W.Part A What is the current in the resistor? Part B What is its resistance?
At what rate is heat being generated in the 5 Ω resistor on the right? Answer...

At what rate is heat being generated in the 5 Ω resistor on the right? Answer in units of W. Consider the circuit 13 Ω ← 0.14 A → 6.2 Ω 5Ω .S At what rate is heat being generated in the 5 Ω resistor on the right? Answer in units ofW

5) The initial voltages of 4 V and 24 V, respectively established by sources not shown...

5) The initial voltages of 4 V and 24 V, respectively established by sources not shown (note polarity of the initial voltages). The switch is closed at t = 0. a. Find t) for t2 0; and i(t) for t 2 0 b. Find ) and ) for 2 0. Hint use tin part a and the current-voltage relationship for capacitors) c. Calculate the initial and final (that is, as t) energy stored in the capacitors. d. Calculate the total...
Alternating source with amplitude ε = 12 V and frequency ωd = 100 rad/s is connected...

Alternating source with amplitude ε = 12 V and frequency ωd = 100 rad/s is connected in series with resistor R=300 Ω, capacitor C=25 μF and inductance L=2.0 H. What is the amplitude of the current in the circuit?
10. In the circuit below, the battery has an emf, ε, of 1.5 V and an...

10. In the circuit below, the battery has an emf, ε, of 1.5 V and an internal resistance, r, of 3.0 12. The resistance of R1 is 5.0 12, the resistance of R2 is 8.0 N and the resistance of R3 is 6.0 12. R2 w Ri R3 winti a) What is the voltage drop across R1? b) What is the terminal voltage of the battery? c) If another resistor is added to the circuit, parallel to R2, will the...

In the circuit shown below, what is the rate at which energy is dissipated in (a)...

In the circuit shown below, what is the rate at which energy is dissipated in (a) R1, (b) R2, and (c) R3? What is the power of (d) battery 1 and (e) battery 2? Put E1=3.0 V, E2=1.0 V, R1=5.0, and R2=2.0, R3=4.0, both batteries are ideal. (Please show steps!!) hown beow, what is the rate at which energy is dissipated in (a) Ru. (b) R Ri = 5.0 Ω, and R2 = 2.0 Ω, R3-4.0 Ω, both batteries are...
e. 1.5Ω O. What is the equivalent resistance of the circuit when ε-12 V and R-3.0...

e. 1.5Ω O. What is the equivalent resistance of the circuit when ε-12 V and R-3.0 Ω? 2 2R a. 12Ω b. 24 Ω c. 6.5 Ω d. 3.0Ω e.6.0Ω Total Pages Total marks # 100
Thermal energy is produced in a resistor at a rate of 96.0 W when the current...

Thermal energy is produced in a resistor at a rate of 96.0 W when the current is 3.38 A. What is the resistance? Number the tolerance is +/-296 Click if you would like to Show Work for this question: Open Show Work Units

For the circuit shown in the figure (ε-3.50 V, R-5.00 Ω), calculate the following quantities. 12,0...

For the circuit shown in the figure (ε-3.50 V, R-5.00 Ω), calculate the following quantities. 12,0 V 4,00 Ω 2.00 Ω (a) Calculate the current in the 2.00 Ω resistor. (Enter the magnitude.) mA (b) Calculate the potential difference between points a and b. The ammeter shown in the figure below reads 2.94 A. Find the following. 15.0 V 7.00 Ω 5.00 Ω 2.00 Ω ε (a) 1A Consider the following figure, where ε,-12 V and ε2-9.2 v. 10.011 6.00...