Mechanical and Electrical Vibrations. Applications.

Slides:

Advertisements

Similar presentations

1 Lecture D33 : Forced Vibration Spring Force k > 0 Dashpot c > 0 Newtons Second Law Equation of motion Forcing.

Advertisements

Lecture 13 Second-order Circuits (1) Hung-yi Lee.

Revision Previous lecture was about Harmonic Oscillator.

E E 2315 Lecture 11 Natural Responses of Series RLC Circuits.

Ch 3.8: Mechanical & Electrical Vibrations

Mechanical Vibrations

Chapter 13 Periodic Motion. Special Case: Simple Harmonic Motion (SHM)

ME 482: Mechanical Vibrations (062) Dr. M. Sunar.

Harmonic Oscillator. Hooke’s Law  The Newtonian form of the spring force is Hooke’s Law. Restoring forceRestoring force Linear with displacement.Linear.

Vibrations FreeForced UndampedDampedUndampedDamped.

Free Vibrations – concept checklist You should be able to: 1.Understand simple harmonic motion (amplitude, period, frequency, phase) 2.Identify # DOF (and.

Introduction to Structural Dynamics:

Solving the Harmonic Oscillator

S1-1 SECTION 1 REVIEW OF FUNDAMENTALS. S1-2 n This section will introduce the basics of Dynamic Analysis by considering a Single Degree of Freedom (SDOF)

Parallel RLC Network. Objective of Lecture Derive the equations that relate the voltages across a resistor, an inductor, and a capacitor in parallel as:

Lecture 22 Second order system natural response Review Mathematical form of solutions Qualitative interpretation Second order system step response Related.

Series RLC Network. Objective of Lecture Derive the equations that relate the voltages across a resistor, an inductor, and a capacitor in series as: the.

SECOND ORDER CIRCUIT. Forced Response of Parallel RLC Circuit (Step response Parallel RLC Circuit) Second order circuit When switch is open, a STEP current.

Lecture 12 - Natural Response of Parallel RLC Circuits

1 On Free Mechanical Vibrations As derived in section 4.1( following Newton’s 2nd law of motion and the Hooke’s law), the D.E. for the mass-spring oscillator.

Chapter 14 Periodic Motion. Hooke’s Law Potential Energy in a Spring See also section 7.3.

Reading: Main 3.1, 3.2, 3.3 Taylor 5.4 Giancoli 14.7, 14.8 THE DAMPED HARMONIC OSCILLATOR.

Other Physical Systems Sect. 3.7 Recall: We’ve used the mass-spring system only as a prototype of a system with linear oscillations ! –Our results are.

ELECTRICAL ENGINEERING: PRINCIPLES AND APPLICATIONS, Fourth Edition, by Allan R. Hambley, ©2008 Pearson Education, Inc. Lecture 14 Second Order Transient.

Lecture 2 Differential equations

Associate Professor: C. H.L IAO. Contents:  3.1 Introduction 99  3.2 Simple Harmonic Oscillator 100  3.3 Harmonic Oscillations in Two Dimensions 104.

Chapter 7. Free and Forced Response of Single-Degree-of-Freedom Linear Systems 7.1 Introduction Vibration: System oscillates about a certain equilibrium.

1 ELECTRIC CIRCUITS F U N D A M E N T A L S O F CHARLES K. ALEXANDER MATTHEW N.O. SADIKU McGraw-Hill © The McGraw-Hill Companies, Inc. Fig. 8.1 Typical.

Second Order Circuits ES-3 Download:

Step Response Series RLC Network.

1 Lecture D32 : Damped Free Vibration Spring-Dashpot-Mass System Spring Force k > 0 Dashpot c > 0 Newton’s Second Law (Define) Natural Frequency and Period.

Chapter 4 Transients. 1.Solve first-order RC or RL circuits. 2. Understand the concepts of transient response and steady-state response.

LCR circuit R V0 L I(t)=0 for t<0 V(t) C + trial solution

Week 6 Second Order Transient Response. Topics Second Order Definition Dampening Parallel LC Forced and homogeneous solutions.

|||| 9.1 MODELING WITH DIFFERENTIAL EQUATIONS Differential Equations Dicky Dermawan

11/30/2015Damped Oscillations1. 11/30/2015Damped Oscillations2 Let us now find out the solution The equation of motion is (Free) Damped Oscillations.

Summary so far: Free, undamped, linear (harmonic) oscillator Free, undamped, non-linear oscillator Free, damped linear oscillator Starting today: Driven,

CHAPTER - 3 FORCED OSCILLATOR Mrs. Rama Arora Assoc. Professor Deptt. Of Physics PGGCG-11 Chandigarh.

Physics 321 Hour 11 Simple and Damped Harmonic Oscillators.

Chapter 8 Vibration A. Free vibration  = 0 k m x

Chapter 5 Transient Analysis Tai-Cheng Lee Electrical Engineering/GIEE 1.

Damped and Forced Oscillations

What is called vibration Analysis Design

Main Menu Salas, Hille, Etgen Calculus: One and Several Variables Copyright 2003 © John Wiley & Sons, Inc. All rights reserved. Bernoulli Equations: Homogeneous.

To obtain Coefficient A1 and A2

The RLC Circuit AP Physics C Montwood High School R. Casao.

Network Analysis Week 10 RLC Circuits. Similar to RL and RC circuits, RLC circuits has two parts of responses, namely: natural response and forced response.

Damped harmonic oscillator

1 ECE 3301 General Electrical Engineering Section 30 Natural Response of a Parallel RLC Circuit.

EXAMPLE FORMULA DEFINITION 1.

Will Bergman and Mike Ma

RLC Circuits Dr. Iyad Jafar

Differential Equations

Math 4B Practice Final Problems

EENG 2610: Circuit Analysis Class 13: Second-Order Circuits

2.3 Differential Operators.

EKT101 Electric Circuit Theory

Solving the Harmonic Oscillator

Part I – Basics (1) Geometric model: - interconnected model elements

Physics 111 Practice Problem Solutions 14 Oscillations SJ 8th Ed

Figure A circuit used to illustrate the step response of a parallel RLC circuit.

Unit-Ramp Response System & Control Engineering Lab.

1940 Tacoma Narrows Bridge Collapse

* 07/16/96 What is Second Order?

INC 112 Basic Circuit Analysis

Unit-Impulse Response

Chapter 18: Elementary Differential Equations

1940 Tacoma Narrows Bridge Collapse

Physics 319 Classical Mechanics

Presentation transcript:

Mechanical and Electrical Vibrations

Applications

Forces acting on a Spring

Force Equation

Definitions of Quantities

Example

Undamped Free Vibration

Solution of Undamped Free Vibration

Example

Damped Mass-Spring Model

Mass-Spring System: Three Cases

Solution to the Overdamped Case

Solution to Critcally Damped Case

Solution to Underdamped case

Example

Quasi-Frequency and Quasi-Period

Comparison of Damped and Undamped Motion

Example

Voltage Formulas

Electric Circuit Model