If the voltage drop across the 30 Ohm resistor in the figure is 60V from top to bottom, find:
a) The voltage across the source, Vs
b) The current delivered by the voltage source
c) The power delivered by the voltage source
If the voltage drop across the 30 Ohm resistor in the figure is 60V from top...
Find voltage drop and current across the 2 ohm resistor mi 28v++ 20 v
(10 points) For the DC cicuit show below, find the voltage and current across each resistor. The voltage source is 40V Find the power dissipations in R1 and R Click on the circuit to view a larger image 53877d4e-fdab-38aa-8764-b436caa24771 571....- e https://webwork2.uncc.edu/webwork2 fil Minimize iR1201-C RA # 10 Ω, Rn-400 Ω, Rc : 500 Ω, and RD-85 Ω Current through RA Voltage drop across RA Power dissipation in RA RD Current through Rp Voltage drop across RB Current through R...
Determine the voltage across resistor R2=40ΩR2=40Ω in the circuit shown in (Figure 1), where vs=60Vvs=60V, R1=20ΩR1=20Ω, R3=30ΩR3=30Ω, and R4=40Ω Question 6 Part A Determine the voltage across resistor R2 = 40 2 in the circuit shown in (Figure 1), where us = 60 V, R1 = 20 12 R3 = 30 12, and R4 = 40 12 Express your answer in volts to three significant figures. View Available Hint(s) Learning Goal: To determine the voltage, current, and power of circuit...
Determine the current through R3=50Ω in the circuit shown in (Figure 1), where vs=60V, R1=30Ω, R2=30Ω, and R4=60Ω. Express your answer in amperes to three significant figures. I need both parts A and B please ▼ Part B Determine the current through R3-50 Ω in the circuit shown in Figure 1), where us Rs 60 S2 Express your answer in amperes to three significant figures. Review 60 V. R-30 Ω. R2 30 Ω, and Learning Goal: To determine the voltage,...
In the circuit below, the voltage drop across the upper resistor is 4.5V. What is the battery voltage? 30 Ω w + 50 Ω
2. The voltage across the 22.522 resistor in the circuit below is 90 V, positive at the upper terminal A 90 V 222.5 1 240 V 512 20.02 mise (a) Find the power dissipated in each resistor (b) Find the power delivered by the voltage source.
In the circuit shown, the motor can be modeled as a 30-ohm resistor. Determine the power delivered to the motor when the transistor is in the saturation mode. Assume the voltage drop across the collector-emitter junction of the transistor, V_CE, is 0.2 V. Insert a numeric answer in units of Watts. +6 loor CV - B
A voltmeter and an ammeter are used to respectively monitor the voltage across and the current through a resistor connected to an AC source. If the resistor has a value of 14.0 Ω and the ammeter reads 8.04 A, determine the following. (a) the rms voltage (in V) across the resistor V (b) the peak voltage (in V) of the source V (c) the maximum current (in A) in the resistor A (d) the average power (in W) delivered to...
For the DC cicuit show below, find the voltage and current across each resistor. The voltage source is 40V. Find the power dissipations in R1 and R3. Click on the circuit to view a larger image 20 , RB 500 2, Rc RA 400 , and Rp 75 - - Current through RA A Voltage drop across RA V Power dissipation in RA W Current through Rg A Voltage drop across R V Current through Rc = A Voltage drop...
Q1. (3 marks) In the circuit shown below, R-1.5KO and the voltage drop across Ri is 4.5V. (1 pt.) A. What is the voltage drop across R? (1 pt.) B. What is the value of the resistance R? (1 pt.) C. What is the power delivered by the source voltage? S Answer: wwiw R Ri Vs=15V Q2. (3 marks) Refer to the circuit below. A. Using the voltage divider law, find the voltage between the points A and B. B....