Determins the power dissipated by the 4-ohm resistor in the right hand circuit using algebra. Show...
For the circuit given on the right, calculate the power dissipated in the 4 Ω resistor. 3.00 Ω a 2.00 Ω 10.00 V E * 1.00 Ω 5.00V 4.00 Ω b 10.00 Ω Part A Ο 0.160 W Ο Ο 0.800 W 2.50 W Ο 1,44 W
The power dissipated by a resistor with a resistance of R = 260 Ω is P = 2.3 w. what are the current through (in A) and the voltage drop (in V) across the resistor? current.088 voltage 22.8 X A
The variable resistor (R0) in the circuit is adjusted until the power the power dissipated in the resistor is 250W. Find the values of R0 that satisfy this condistion. 4.87 The variable resistor (Ro) in the circuit in Fig. P4.87 PPIis adjusted until the power dissipated in the resistor is 250 W. Find the values of Ro that satisfy this con- MULTISIM dition. Figure P4.87 25 Ω 10 Ω 200 V 100 Ro 30
Determine the power dissipated in the 350 ohm resistor 200 m E = 45 V L00( ) 1000 3500 4.36 W 6.78 W a 9.35 W 15.26 W
12. For the following circuit: a) Find the total resistance? b) For each resistor select an appropriate current direction and find the current? c) Find the total current In? d) Show the voltage polarities across each resistor? e) Find the voltage drop across each resistor? f) How much is Vab? g) Calculate the total dissipated power by the circuit? R1 w 200 R3 w 1250 SR4 2000 R5 500 -120 V SR2 1500 a R6 1500 SR7 3000
Please do question 524 the power in watts dissipated by the resistor. Hamad Alrobayan ans:4 ource, resistor, 524) Given a series circuit consisting of a DC voltage capacitor, inductor, and switch which closes at t-o. All elements are initially uncharged. If v-1 volts, R-4 Ohms, C-1/10 Farads, and L-2 Henries. DO NOT determine current. Determine voltage across the INDUCTOR (VL(t)). Any inverse LT requires Stanley met Express any angle in radians. ans:4 Hamad Alrobayan 765 Given th vstem in Fig...
The power dissipated in an electrical circuit is the current times the voltage drop. In this case, I times the emf across the rod. k. What is the power dissipated? The power delivered by an external force is AW/At, where W = F .s is the work done by the applied force, F, and s is the displacement. 1. Show that the power delivered is also F. v. m. What is the power delivered by the external force? n. Why...
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
Review | Constants The variable resistor (Ro) in the circuit is adjusted until the power dissipated in the resistor is 250 W.(Figure 1) Part A Find the values of R that satisfy this condition if v = 225 V Enter your answers numerically separated by a comma. ν ΑΣφ ? Figure 1 of 1 Ro 4.33 Ω Your submission doesn't have the correct number of answers. Answers should be separated with a comma. No credit lost. Try again 25 0...
need help 3. For the circuit given, determine the average power dissipated in the 100 k2 resistor. (5 pts) 100 S2 1:10 + w 50 V rms V2 100 k2