Phy 212: General Physics II Chapter 15: Oscillations Lecture Notes.

Slides:

Advertisements

Similar presentations

Physics 101: Lecture 21, Pg 1 Lecture 21: Ideal Spring and Simple Harmonic Motion l New Material: Textbook Chapters 10.1, 10.2 and 10.3.

Advertisements

Chaper 15, Oscillation Simple Harmonic Motion (SHM)

Simple Harmonic Motion

Physics 111: Mechanics Lecture 14 Dale Gary NJIT Physics Department.

Copyright © 2009 Pearson Education, Inc. Lecture 1 – Waves & Sound a) Simple Harmonic Motion (SHM)

Physics 101: Lecture 20, Pg 1 Lecture 20: Ideal Spring and Simple Harmonic Motion l New Material: Textbook Chapters 10.1 and 10.2.

Fundamentals of Physics

Chapter 13 Oscillatory Motion.

Chapter 15 Oscillatory Motion.

PHY131H1S - Class 21 Today: Oscillations, Repeating Motion Simple Harmonic Motion Oscillations / Circular Motion Connection Potential and Kinetic Energy.

Motion of a mass at the end of a spring Differential equation for simple harmonic oscillation Amplitude, period, frequency and angular frequency Energetics.

Oscillations Unit 7.

CHAPTER 10 Elasticity and Oscillations

Periodic Motion - 1.

Chapter 13: Oscillatory Motions

Chapter 12 Oscillatory Motion.

Describing Periodic Motion AP Physics. Hooke’s Law.

Chapter 14 Periodic Motion.

Simple Harmonic Motion

Vibrations and Waves AP Physics Lecture Notes m Vibrations and Waves.

SIMPLE HARMOIC MOTION CCHS Physics.

Chapter 15 Oscillations What is Physics? Simple Harmonic Motion The Force Law for Simple Harmonic Motion Energy in Simple Harmonic.

Photo by Mark Tippens A TRAMPOLINE exerts a restoring force on the jumper that is directly proportional to the average force required to displace the.

Vibrations and Waves m Physics 2053 Lecture Notes Vibrations and Waves.

15.1 Motion of an Object Attached to a Spring 15.1 Hooke’s law 15.2.

Simple Harmonic Oscillator and SHM A Simple Harmonic Oscillator is a system in which the restorative force is proportional to the displacement according.

Oscillations – motions that repeat themselves Period ( T ) – the time for one complete oscillation Frequency ( f ) – the number of oscillations completed.

Chapter 15 Oscillatory Motion.

Simple Harmonic Motion

Chapter 11 Vibrations and Waves.

Chapter 15: Oscillations

Chapter 15 Oscillatory Motion. Periodic Motion Periodic motion is motion of an object that regularly repeats The object returns to a given position after.

Simple Harmonic Motion

Chapter 15 Oscillations. Periodic motion Periodic (harmonic) motion – self-repeating motion Oscillation – periodic motion in certain direction Period.

Simple Harmonic Motion: SHM

Oscillatory motion (chapter twelve)

Oscillations – motions that repeat themselves Period ( T ) – the time for one complete oscillation Frequency ( f ) – the number of oscillations completed.

Chapter 15 Oscillatory Motion.

Vibrations and Waves Hooke’s Law Elastic Potential Energy Simple Harmonic Motion.

SIMPLE HARMONIC MOTION. STARTER MAKE A LIST OF OBJECTS THAT EXPERIENCE VIBRATIONS:

Simple Harmonic Motion Simple harmonic motion (SHM) refers to a certain kind of oscillatory, or wave-like motion that describes the behavior of many physical.

Ball in a Bowl: F g F N F g F N  F  F Simple Harmonic Motion (SHM) Stable Equilibrium (restoring force, not constant force)

Copyright © 2010 Pearson Education, Inc. Chapter 13 Oscillations about Equilibrium.

Oscillations Readings: Chapter 14.

Oscillations. Periodic Motion Periodic motion is motion of an object that regularly returns to a given position after a fixed time interval A special.

TOPIC 4.1 Kinematics of Simple Harmonic Motion. Oscillations Name some examples of oscillations How do you know they are oscillations?

Simple Harmonic Motion Periodic Motion Simple periodic motion is that motion in which a body moves back and forth over a fixed path, returning to each.

SHM – Types of Pendulums AP Physics. Pendulum Simple Physical/Compound  Oscillates due to gravity  Mass of pendulum bob is irrelevant  Oscillates due.

Physics 141Mechanics Lecture 21 Oscillation Yongli Gao You may not know it, but every atom/molecule in your body is oscillating. For any system, there's.

PHY 151: Lecture Motion of an Object attached to a Spring 12.2 Particle in Simple Harmonic Motion 12.3 Energy of the Simple Harmonic Oscillator.

Chapter 10 Waves and Vibrations Simple Harmonic Motion SHM.

Chapter 14 Periodic Motion © 2016 Pearson Education Inc.

Waves and Quanta PA114 Unit 1: Oscillations and Oscillators

Chapter 13: Oscillatory Motion

AP Physics Lecture Notes

Applications of SHM and Energy

Energy in SHM Objectives

Oscillations © 2014 Pearson Education, Inc..

Physics I LECTURE 22 11/29/10.

Oscillations Readings: Chapter 14.

Oscillatory Motion Periodic motion Spring-mass system

Simple Harmonic Motion

Chapter 14 Periodic Motion.

Chapter 15 Oscillations.

Physics : Oscillatory Motion

Copyright © 2014 John Wiley & Sons, Inc. All rights reserved.

Chapter 15 Oscillations 1.

Principles of Dynamics

Simple Harmonic Motion and Wave Interactions

Presentation transcript:

Phy 212: General Physics II Chapter 15: Oscillations Lecture Notes

Simple Harmonic Motion (SHM) The “typical” form of an SHM equation for oscillation in the x direction: The Physical Quantities used to describe SHM: –Frequency (f): the rate of oscillation cycles per unit time –Period (T): the time interval during which a complete oscillation cycle occurs –Amplitude (x m ): the peak magnitude of the oscillation –Phase Constant (  ): the initial shift in the oscillation at t=0 –Angular Frequency (  ): the time rate of oscillations in radians per unit time

Velocity & Acceleration for SHM Velocity: Velocity Amplitude: Acceleration: Acceleration Amplitude:

Graph of x(t), v(t) and a(t) vs t (for SHM) x m = 1 m &  = 15 rad/s

1.According to Newton’s 2 nd Law: 2.Since acceleration is related to displacement: 3.Note that the form of this equation is the same as for SHM: Force Law for SHM Hooke’s Law for elastic restoring force leads to SHM. Consider an ideal spring initially stretched then released (neglect friction and all other forces): m m m Equilibrium Position Where: and

Energy in SHM For a mass (m) subject to a restoring spring force, the U elastic associated with the mass is: As the mass oscillates in SHM, U elastic varies with time: The kinetic energy of the oscillator also varies with time: The total mechanical energy, E system, is

The Simple Pendulum A simple pendulum is a moveable “point mass” body, fixed about a single pivot point: R mg FTFT mgsin   The gravitational torque exerted on the pendulum is: The angular acceleration is: The period, T, of the motion is:

The Physical Pendulum A physical pendulum is a more complex body, fixed about a single pivot point: R mg mgsin   The gravitational torque exerted the center of mass of the pendulum is: The angular acceleration is: The period, T, of the motion is:

SHM & Uniform Circular Motion 1.Consider an object in uniform circular motion 2.Observing the object along the plane of its circular motion, the object motion appears to be in simple harmonic motion X o = 0 m