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Given resistance starts at 44 ohms and decreases in increments
of 5 ohms, calculate the values...
the voltage of the battery is 12V, and the values of the resistances are R1=5 ohms,...
the voltage of the battery is 12V, and the values of
the resistances are R1=5 ohms, R2=10 ohms, R3= 15 ohms, and R4= 20
ohms.
Answer the following questions:
1. R1 and R3 are in :
2. R2 and R4 are in:
3 Compare the magnitude of the current through R2 and R3. which is
greater?
4. Compare the magnitude of the voltage across R1 and R3. which is
greater?
5. Compare the magnitude of the voltage across R2 and...
voltage going through = 28 V resistance through entire circuit = 4 ohms a) What are...
voltage going through = 28 V
resistance through entire circuit = 4 ohms
a) What are the values of the three resistors below? b) what is the current and voltage drop across each of the 3 resistors below? ww
A 1.5 V battery with an internal resistance of 5 Ohms is connected to a light...
A 1.5 V battery with an internal resistance of 5 Ohms is connected to a light bulb with a resistance of 20 Ohms in a simple, single-loop circuit. a) What is the current flowing in this circuit? b) What is the voltage difference across the light bulb and the internal resistor? c) Also calc the supplied power by the battery and power drops across the two resistors.
Consider the circuit below. R1 = 3 ohms, R2 = 6 ohms, R3 = 2 ohms,...
Consider the circuit below. R1 = 3 ohms, R2 = 6 ohms, R3 = 2
ohms, R4 = 4 ohms, and the battery has a voltage of 12 V. Answer
the following
Pick the best answer for each True/False answer
1. R1 and R2 will both have a voltage across each of 12V. True
or False.
2. R1 and R2 will both have the same current traveling through
them. True or False.
3. R3 and R4 will both have a...
The circuit below shows a transformer used for running a device with a known resistance RL...
The circuit below shows a transformer used for running a device with a known resistance RL 50.0 Ω. Suppose the ratio is Ni/N2 2.50, and the rms voltage from the source is Δν, 80.0 V. Note that the Rs represents the (internal) resistance of the source circuit. Now, suppose you measure the voltage across your device, and find that VL 25.0V. Given that the (rms) power delivered to the load resistance is equal to the power delivered to the transformer,...
Suppose you setup an RLC circuit with the following values: R=4 ohms, L=3×10^-3H, C=8×10^-4F, and this...
Suppose you setup an RLC circuit with the following values: R=4 ohms, L=3×10^-3H, C=8×10^-4F, and this circuit is connected across an AC power supply with a peak voltage of .1v and a frequency of 200hz. A. Calculate the capacitive reactance and the inductive reactance. B. Draw a phase diagram for this circuit. C. What is the impedance and the maximum current through the power supply? D. When the current is maximal through the power supply, what is the voltage across...
1) Calculate the ac emitter resistance r'e for the value of IE = 5.52 mA. (In...
1) Calculate the ac emitter resistance r'e
for the value of IE = 5.52 mA. (In Ω)
2) Calculate the value of ac load resistance
rL. (In kΩ)
3) Calculate the voltage gain AV.
4) Calculate the value of output voltage.
(Vp-p)
Required information In the circuit below: Vin = 10 mVp-p, R2 = 2.2 k12, R1 = 15 k12, Vcc = 21 V, RC = 3 k12, B = 100, RE = 3602, and RL = 6.2 k12. V...
60W 75W 200W 120V 1. Calculate the resistance for each bulb at 120V for the stated...
60W 75W 200W 120V 1. Calculate the resistance for each bulb at 120V for the stated power 2 Calculate Ru for the circuit. 3. Calculate the current in the circuit. 4 Calculate the current across each bulb 5. Eater the voltage drop and the power for each bulb in the boxes above. AV/R 120V 2402 0.5A
5. Calculále hi RI Pi 25W P2 40W V: P3 100W 120V 1. Calculate the resistance...
5. Calculále hi RI Pi 25W P2 40W V: P3 100W 120V 1. Calculate the resistance for each bulb at 120V for the stated power and enter in boxes above. 2. Calculate Ru for the circuit. 3. Calculate the current in the circuit and enter in the box above. 4. Calculate the current across each bulb and enter in boxes above. 5. Enter the voltage drop and the power for each bulb and enter in boxes above.
4. Design a npn BJT C-E amplifier circuit for the following specifications and given values: Voltage...
4. Design a npn BJT C-E amplifier circuit for the following specifications and given values: Voltage Gain Input resistance Load resistance Supply voltage Av = -60 Ri = 5k92 RL = 6k2 Vcc= 16V Assume Re is fully bypassed. The input source internal resistance Rs = 0.12. B=120 and VBE= 0.65V. Draw the actual circuit and its ac equivalent circuit
the voltage of the battery is 12V, and the values of
the resistances are R1=5 ohms, R2=10 ohms, R3= 15 ohms, and R4= 20
ohms.
Answer the following questions:
1. R1 and R3 are in :
2. R2 and R4 are in:
3 Compare the magnitude of the current through R2 and R3. which is
greater?
4. Compare the magnitude of the voltage across R1 and R3. which is
greater?
5. Compare the magnitude of the voltage across R2 and...
voltage going through = 28 V
resistance through entire circuit = 4 ohms
a) What are the values of the three resistors below? b) what is the current and voltage drop across each of the 3 resistors below? ww
Consider the circuit below. R1 = 3 ohms, R2 = 6 ohms, R3 = 2
ohms, R4 = 4 ohms, and the battery has a voltage of 12 V. Answer
the following
Pick the best answer for each True/False answer
1. R1 and R2 will both have a voltage across each of 12V. True
or False.
2. R1 and R2 will both have the same current traveling through
them. True or False.
3. R3 and R4 will both have a...
The circuit below shows a transformer used for running a device with a known resistance RL 50.0 Ω. Suppose the ratio is Ni/N2 2.50, and the rms voltage from the source is Δν, 80.0 V. Note that the Rs represents the (internal) resistance of the source circuit. Now, suppose you measure the voltage across your device, and find that VL 25.0V. Given that the (rms) power delivered to the load resistance is equal to the power delivered to the transformer,...
1) Calculate the ac emitter resistance r'e
for the value of IE = 5.52 mA. (In Ω)
2) Calculate the value of ac load resistance
rL. (In kΩ)
3) Calculate the voltage gain AV.
4) Calculate the value of output voltage.
(Vp-p)
Required information In the circuit below: Vin = 10 mVp-p, R2 = 2.2 k12, R1 = 15 k12, Vcc = 21 V, RC = 3 k12, B = 100, RE = 3602, and RL = 6.2 k12. V...
60W 75W 200W 120V 1. Calculate the resistance for each bulb at 120V for the stated power 2 Calculate Ru for the circuit. 3. Calculate the current in the circuit. 4 Calculate the current across each bulb 5. Eater the voltage drop and the power for each bulb in the boxes above. AV/R 120V 2402 0.5A
5. Calculále hi RI Pi 25W P2 40W V: P3 100W 120V 1. Calculate the resistance for each bulb at 120V for the stated power and enter in boxes above. 2. Calculate Ru for the circuit. 3. Calculate the current in the circuit and enter in the box above. 4. Calculate the current across each bulb and enter in boxes above. 5. Enter the voltage drop and the power for each bulb and enter in boxes above.
4. Design a npn BJT C-E amplifier circuit for the following specifications and given values: Voltage Gain Input resistance Load resistance Supply voltage Av = -60 Ri = 5k92 RL = 6k2 Vcc= 16V Assume Re is fully bypassed. The input source internal resistance Rs = 0.12. B=120 and VBE= 0.65V. Draw the actual circuit and its ac equivalent circuit
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