Suppose the current passing through a resistor can be described by 1(t)=10sint. where I represents thetime-dependent current in amperes and t represents time in seconds. Establish the mean and rms values ofcurrent over a time from o to t, with t, = n and then with t,= 27. How do the results relate to the power dissipatedin the resistor?Graph for 10 sin(t)АЛА

Given data Current expression; I=10 sint To find out Mean and RMS value of current from 0 to tf when…

Answered: Suppose the current passing through a…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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Similar questions

A single phase ac voltage source has 200 V rms and a system connected consumes an active power of 300 W. What is the reactive power consumed by the system if 2.5 A rms current is drawn ?
8. Determine the rms current I as shown in figure 3. Source voltage is already in RMS value (Answer must be in polar form and should be in 4 decimal places). -is A -18 0 ) 220/- 30° V Figure 3. 9. Referring to figure 3, determine the rms current at j50 reactance (inductor) using KCL (Answer must be in polar form and should be in 4 decimal places). (1 10. Referring to figure 3, determine the rms voltage at j50 reactance (inductor) using KVL (Answer must be in polar form and should be in 4 decimal places).
6. If the rms current through a 4.7 kn resistor is 4 mA, the peak voltage drop across the resistor is A. 4 V B. 18.8 V C. 26.6 V D. 2.66 V
... 0.25 A 120 V 60 Hz RL 1 k2 470 µF When the circuit is working normally, it has an rms secondary voltage of 12.49 volts. Considering the ripple voltage, what is thnimum dc load voltage?
a) Write down the expression of instantaneous voltage for an AC voltage having a Peak value of 220 Volts and a frequency of 50 Hz provided at time t=0, the instantaneous voltage is 220 Volts. What is the instantaneous voltage of the source at time “t = 5 seconds” What is its RMS voltage? b) Two 200Ω resistances are connected in series with one 0.5 H Inductance and two 100μF Capacitance with the power supply of part (a). (i)Draw the circuit diagram of the above network (ii)What is the total impedance of the circuit (iii)What is the max current that flows through the Inductance? (iv)What is the max current that flows through each of the Capacitance? (v)What is the power dissipated in the circuit (vi)What is the power factor of the circuit (vii)What is the resonance frequency of the circuit? (viii) What is the maximum power dissipated by the circuit when it is in resonance
Measure and record the peak-to-peak voltage across each of the following points in the table
Please show your solution clearly thank you
Activity 1: You are testing an electrical device which can be modelled by the figure shown below: 18 -j12 j6 8 -j10 i1 E1 12 13 E2 13 The above electric circuit can be characterized by the following equations: 1811 + j6(I1 – 2) + 4(I1 – I2) = 1020° -j121, + 8(12 – I3) + 20290° + 4(12 – 1) + j6(I2 – 1) = 0 -j1013 + 1313 – 20290° + 8(I3 - 12) = 0 1. Rearrange the above three equations. 2. Write the set of equations in matrix form (A.x = b) 3. Find the determinant of the resulted matrix (A).
The graph below shows a voltage signal as a function of time. The dc voltage is 0. t1 = 39ms and t2 = 91ms. Determine the phase of the signal. Enter your answer in degrees rounded to one decimal place. If the answer is negative, be sure to include a minus sign.
Solve for 20 V rms supply. Thank you.
please answer and provide any work explaining the answer. thank you!

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