We write the equation for an AC signal like this y = A Cos (ot) or A Cos (2n f t) where, · A is the amplitude • o is the angular frequency (radians) = 27f •f is the frequency in Hertz (Hz) •t = time, you can see that as time changes the value of the signal (y) changes From the circuit: (you can read the values from the schematic or the scope) 1. What is the amplitude of the signal V 2. What is the peak value V 3. What is the minimum value V 4. What is the frequency of the signal the source in the circuit) Hz (read it from 5. What is the angular frequency of the signal rad/s 6. What is the period of this signal ms (work it out) 7. What is the peak to peak voltage V (work it out) Reset RUN / Stop Electric Potential OPower OCharge TP1 275.72V Simulation Speed 450HZ 1.5k Charge Flow 0 Power Brightness Current Circuit 296V Bulb B1 296V So, for this question the signal can be described by, y = A Cos (@t) Fill in this to fully describe the signal in the simulator y =| Cos ( t) Or we can describe it as y =A Cos (2n f t) Fill in this to fully describe the signal in the simulator y =| Cos (2n t)

We write the equation for an AC signal like this y = A Cos (ot) or A Cos (2n f t) where, · A is the amplitude • o is the angular frequency (radians) = 27f •f is the frequency in Hertz (Hz) •t = time, you can see that as time changes the value of the signal (y) changes From the circuit: (you can read the values from the schematic or the scope) 1. What is the amplitude of the signal V 2. What is the peak value V 3. What is the minimum value V 4. What is the frequency of the signal the source in the circuit) Hz (read it from 5. What is the angular frequency of the signal rad/s 6. What is the period of this signal ms (work it out) 7. What is the peak to peak voltage V (work it out) Reset RUN / Stop Electric Potential OPower OCharge TP1 275.72V Simulation Speed 450HZ 1.5k Charge Flow 0 Power Brightness Current Circuit 296V Bulb B1 296V So, for this question the signal can be described by, y = A Cos (@t) Fill in this to fully describe the signal in the simulator y =| Cos ( t) Or we can describe it as y =A Cos (2n f t) Fill in this to fully describe the signal in the simulator y =| Cos (2n t)

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...

See similar textbooks

Similar questions

Solve this question using the explanation
Please answer in typing format solution please only typing format Plyi t rightarrow Please I will like it please
Please solve first three parts accurate and exact. It must be accurate. Thank you!
FOR REVIEW PURPOSES.
An alternating current E(t)=120sin(12t) has been running through a simple circuit for a long time. The circuit has an inductance of L= 0.44 henrys, a resistor of R=7 ohms, and a capacitor of capacitance C= 0.032 farads.What is the amplitude of the current I?
3) The following figure gives the function A) B) AB Di B+C BC 59
The phasor of the impedance of an AC circuit has no vertical component. What does this mean? there are no reactive components in the AC circuit the resistance of the circuit is equal to the reactance of the reactive components the inductive reactance and capacitive reactance are equal in magnitude there are no inductors in the circuit
Q1 Question. The figure given below is a plot of a sinusoidal wave. From the plot, determine values for the amplitude (A), phase (4),and frequency (@o) needed in the representation: x(t) = Acos(wot + 4) Give the answer as numerical values, including the units where applicable. 20 10 x(t) 0 -10 -20 10 20 Time t (msec) -20 -10 30 40