Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.

Slides:



Advertisements
Similar presentations
AC CIRCUITS ANALYSIS. Sinusoids A sinusoid is a signal that has the form of the sine or cosine function.
Advertisements

Physics Lecture Resources
Alternating-Current Circuits
AC CIRCUITS Every slide contains valuable and need-to-know information that has to be understood and retained before proceeding. Throughout this PowerPoint.
Physics Lecture Resources
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
AC Circuits Physics 102 Professor Lee Carkner Lecture 24.
AC Circuits Physics 102 Professor Lee Carkner Lecture 24.
Copyright © 2008 Pearson Education, Inc., publishing as Pearson Addison-Wesley Chapter 36. AC Circuits Today, a “grid” of AC electrical distribution systems.
Physics for Scientists and Engineers II, Summer Semester Lecture 18: July 6 th 2009 Physics for Scientists and Engineers II.
Single Phase System.
Phasors and AC(sec. 31.1) Resistance and reactance(sec. 31.2) RLC series circuit(sec. 31.3) Power in AC circuits(sec. 31.4) Resonance in AC circuits (sec.
AC Circuits Physics 102 Professor Lee Carkner Lecture 23.
Copyright © 2009 Pearson Education, Inc. Lecture 10 – AC Circuits.
ECE 201 Circuit Theory I1 Passive elements in the frequency domain Consider a resistor, R, in the time domain + v - i.
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
1 My Chapter 21 Lecture Outline. 2 Chapter 21: Alternating Currents Sinusoidal Voltages and Currents Capacitors, Resistors, and Inductors in AC Circuits.
Lab 8: AC RLC Resonant Circuits Only 4 more labs to go!! DC – Direct Current time current AC – Alternating Current time current When using AC circuits,
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
© 2012 Pearson Education, Inc. { Chapter 31 Alternating Current Circuits (cont.)
Copyright © 2010 Pearson Education, Inc. Lecture Outline Chapter 24 Physics, 4 th Edition James S. Walker.
Chapter 33 Alternating Current Circuits CHAPTER OUTLINE 33.1 AC Sources 33.2 Resistors in an AC Circuit 33.3 Inductors in an AC Circuit 33.4 Capacitors.
RLC Circuits. Ohm for AC  An AC circuit is made up with components. Power source Resistors Capacitor Inductors  Kirchhoff’s laws apply just like DC.
Lecture 10 - Step Response of Series and Parallel RLC Circuits
Alternating Current Electricity NCEA A.S 3.6 Text Chapters
Chapter 24 Alternating-Current Circuits. Units of Chapter 24 Alternating Voltages and Currents Capacitors in AC Circuits RC Circuits Inductors in AC Circuits.
1 Alternating Current Circuits Chapter Inductance CapacitorResistor.
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
Copyright © 2012 Pearson Education Inc. PowerPoint ® Lectures for University Physics, Thirteenth Edition – Hugh D. Young and Roger A. Freedman Lectures.
Alternating Current Circuits. Resistance Capacitive Reactance, X C.
Lecture 13 final part. Series RLC in alternating current The voltage in a capacitor lags behind the current by a phase angle of 90 degrees The voltage.
Copyright © 2007 Pearson Education, Inc. publishing as Addison-Wesley PowerPoint Lectures for College Physics, Eighth Edition Hugh D. Young and Robert.
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
Alternating Current (AC) R, L, C in AC circuits
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
1 © Unitec New Zealand DE4401 AC R L C COMPONENTS.
1 REVISION Things you should know Things you have learned in SEE1003 Things I EXPECT you to know ! 1 Knows how to write expressions for sinusoidal waveforms.
Lecture 14: More on Sinusoidal Steady-State Analysis Nilsson & Riedel ENG17 (Sec. 2): Circuits I Spring May 15, 2014.
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
E E 2415 Lecture 9 Phasor Circuit Analysis, Effective Value and Complex Power: Watts, VAR’s and Volt-Amperes.
Alternating-Current Circuits Physics Alternating current is commonly used everyday in homes and businesses throughout the word to power various.
VSVS L C R At every instant, the generator / supply voltage: (V S = V m sinωt) is given by: V S = V L + V C + V R IZ = IX L + IX C + IR These relationships.
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
Alternating Current Circuits. AC Sources  : angular frequency of AC voltage  V max : the maximum output voltage of AC source.
See 7 RCL series a.c. circuit applet
Alternating Current Capacitors and Inductors are used in a variety of AC circuits.
Alternating Current Circuits Based on Serway and Jewett e6.
PHYS219 Fall semester 2014 Lecture 16: AC Circuits with Inductors and Capacitors Dimitrios Giannios Purdue University.
Chapter 31 Alternating Current.
Chapter 22: Alternating Current
Electromagnetic Oscillations and Alternating Current
Electromagnetic Oscillations and Alternating Current
ECE 1270: Introduction to Electric Circuits
Lecture 13 - Step Response of Series and Parallel RLC Circuits
Passive elements in the frequency domain
PHYS 221 Recitation Kevin Ralphs Week 8.
Electromagnetic Oscillations and Alternating Current
An AC voltage source drives a sinusoidal current through two resistors. The amplitude of the sinusoidal voltage across the top resistor is 4 V. The amplitude.
Electromagnetic Oscillations and Alternating Current
Lecture Outline Chapter 24 Physics, 4th Edition James S. Walker
E E 2415 Lecture 9 Phasor Circuit Analysis, Effective Value and Complex Power: Watts, VAR’s and Volt-Amperes.
Presentation transcript:

happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com

Ch 31 Alternating Current © 2005 Pearson Education

31.1 Phasors and Alternating Currents © 2005 Pearson Education AC source Phasor diagrams

© 2005 Pearson Education

rectified average value of a sinusoidal current root-mean-square value of a sinusoidal current root-mean-square value of a sinusoidal voltage

31.2 Resistance and Reactance © 2005 Pearson Education Resistor in ac circuit

© 2005 Pearson Education Inductor in an ac circuit

© 2005 Pearson Education Capacitor in an ac circuit

© 2005 Pearson Education R,X ω R XLXL XCXC

© 2005 Pearson Education

31.3 The L-R-C Series Circuit © 2005 Pearson Education X L >X C X L <X C

amplitude of voltage across an ac circuit impedance of an L-R-C series circuit phase angle of an L-R-C series circuit © 2005 Pearson Education

31.4 Power in Alternating-Current Circuits © 2005 Pearson Education

average power into a general ac circuit © 2005 Pearson Education Power factor

31.5 Resonance in Alternating-Current Circuits © 2005 Pearson Education Resonance angular frequency

31.6 Transformers terminal voltages of transformer primary and secondary currents in transformer primary and secondary © 2005 Pearson Education

Eddy current © 2005 Pearson Education

An alternator or ac source produces an emf that varies sinusoidally with time. A sinusoidal voltage or current can be represented by a phasor, a vector that rotates counterclockwise with constant angular velocity w equal to the angular frequency of the sinusoidal quantity. Its projection on the horizontal axis at any instant represents the instantaneous value of the quantity. © 2005 Pearson Education

For a sinusoidal current, the rectified average and rms (root-mean-square) currents are proportional to the current amplitude I. Similarly, the rms value of a sinusoidal voltage is proportional to the voltage amplitude V. (See Example 31.1)

© 2005 Pearson Education In general, the instantaneous voltage between two points in an ac circuit is not in phase with the instantaneous current passing through those points. The quantity Φ is called the phase angle of the voltage relative to the current.

The voltage across a resistor R is in phase with the current. The voltage across an inductor L leads the current by 90°(Φ=+90°), while the voltage across capacitor C lags the current by 90°(Φ=-90°). The voltage amplitude across each type of device is proportional to the current amplitude I. An inductor has inductive reactance X L =ωL and a capacitor has capacitive reactance X C =1/ωC. (See Examples 31.2 and 31.3) © 2005 Pearson Education

In a general ac circuit, the voltage and current amplitudes are related by the circuit impedance Z. In an L-R-C series circuit, the values of L, R, C, and the angular frequency w determine the impedance and the phase angle φ of the voltage relative to the current. (See Examples 31.4 and 31.5)

© 2005 Pearson Education The average power input P av to and ac circuit depends on the voltage and current amplitudes (or, equivalently, their rms values) and the phase angle φ of the voltage relative to the current. The quantity cos φ is called the power factor. (See Examples 31.6 and 31.7)

© 2005 Pearson Education In an L-R-C series circuit, the current becomes maximum and the impedance becomes minimum at an angular frequency called the resonance angular frequency. This phenomenon is called resonance. At resonance the voltage and current are in phase, and the impedance Z is equal to the resistance R. (See Example 31.8)

© 2005 Pearson Education A transformer is used to transform the voltage and current levels in an ac circuit. In an ideal transformer with no energy losses, if the primary winding has N1 turns and the secondary winding has N2 turns, the amplitudes (or rms values) of the two voltages are related by Eq. (31.35). The amplitudes (or rms values) of the primary and secondary voltages and current are related by Eq. (31.36). (See Example 31.9)

END Visit: happyphysics.com For Physics Resources