Using nodal analysis in Figure 1, find the power that the 75 ohm resistor dissipates.
a) Using nodal analysis determine the voltage across the 1 ohm resistor. b) using mesh analysis determine the current across the voltage source. nr )edder me nu current Nh) wsern esh analysis
Whats is the battery volatage? In the circuit shown in (Figure 1) the 33-Ohm resistor dissipates 0.95 What is the battery voltage? Express your answer to two significant figures and include the appropriate units.
Design a Circuit using only 2 resistors of 15 Ohm and 1 resistor of 75 Ohm. 1. Using all three resistors, design a circuit that will draw ~320 mW from power supply when connected across 8.0 V. Determine theoretically the power consumption of each individual resistor in the circuit you have designed. 2. Annotated potential vs path graph with accompanying Kirchhoff’s Laws written as algebraic statements. 15.0Ω 7.5 Ω Current 0.40 Α) 8.0V 15.0 Ω
The 10 ohm resistor in the figure (Figure 1) is dissipating 20 W of power. How much power is the 5 ohm resistor dissipating? Express your answer to two significant figures and include the appropriate units. How much power is the 20 ohm resistor dissipating? Express your answer to two significant figures and include the appropriate units.
Apply nodal analysis to the circuit of Figure P3.22 to find the power (released or absorbed?) by the 3-mA source. Check your result.
Using superposition theorem, find the current in 2 ohm resistor in the circuit in Figure 1. Points)
The circuit in Figure Q23.4 has two resistors, with R_1 > R_2. Which resistor dissipates the larger amount of power? Explain. The circuit in Figure Q23.5 has a battery and two resistors, with R_1 > R_2. Which resistor dissipates the larger amount of power? Explain.
The resistor R in the figure below dissipates 12 W of power. Determine the value of R. (Assume ΔV = 81 V.) R = Ω (larger value) R = Ω (smaller value) ΑΛ 5.0 Ω ξ40 Ω -Δ' ξ30 Ω ER
using thevenin’s theorem find the power disspated in 20 Ohm resistor Ri R3 20Ω
Using nodal analysis, find Io in the circuit in the figure below. 2 28 ? 1? 2/0° A (a) Find the real part of Io. (b) Find the imaginary part of Io