Whenever the force acting on an object is: Whenever the force acting on an object is: 1. Proportional to the displacement 2. In the opposite direction,

Slides:

Advertisements

Similar presentations

Physics January

Advertisements

Simple Harmonic Motion

Oscillations © 2014 Pearson Education, Inc. Periodic Motion Periodic motion is that motion in which a body moves back and forth over a fixed path, returning.

Simple Harmonic Motion

Oscillations Phys101 Lectures 28, 29 Key points:

Waves Physics H.

Simple Harmonic Motion

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

Chapter 11 - Simple Harmonic Motion

Simple Harmonic Motion.  Simple harmonic motion (SHM) a type of wavelike motion that describes the behavior of many physical phenomena: –a pendulum –a.

Vibrations and Waves Hooke’s Law Elastic Potential Energy Comparing SHM with Uniform Circular Motion Position, Velocity and Acceleration.

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.

Periodic Motion. Definition of Terms Periodic Motion: Motion that repeats itself in a regular pattern. Periodic Motion: Motion that repeats itself in.

Chapter 12 Simple Harmonic Motion Photo by Mark Tippens A TRAMPOLINE exerts a restoring force on the jumper that is directly proportional to the average.

Oscillations - SHM. Oscillations In general an oscillation is simply aback and forth motion Since the motion repeats itself, it is called periodic We.

Section 2 Measuring simple harmonic motion. Amplitude, Period and Frequency.

1 15.1Motion of an Object Attached to a Spring 15.2Particle in Simple Harmonic Motion 15.5The pendulum.

SHM occurs when an object oscillates back and forth over the same path. Examples 1. 2.

Copyright © 2009 Pearson Education, Inc. Oscillations of a Spring Simple Harmonic Motion Energy in the Simple Harmonic Oscillator The Simple Pendulum Lecture.

Simple Harmonic Motion

Chapter 11 Vibrations and Waves.

Chapter 15: Oscillations

Chapter 12 VibrationsandWaves. Chapter 12 Objectives Hooke’s Law Hooke’s Law Simple Harmonic Motion Simple Harmonic Motion Elastic Potential Energy Elastic.

Simple Harmonic Motion. Restoring Forces in Spring  F=-kx  This implies that when a spring is compressed or elongated, there is a force that tries to.

Simple Harmonic Motion

Periodic Motion Motion that repeats itself over a fixed and reproducible period of time is called periodic motion. The revolution of a planet about its.

Simple Harmonic Motion. Definitions Periodic Motion – When a vibration or oscillation repeats itself over the same path Simple Harmonic Motion – A specific.

Periodic Motion What is periodic motion?

Simple Harmonic Motion This type of motion is the most pervasive motion in the universe. All atoms oscillate under harmonic motion. We can model this motion.

{ SHM Simple Harmonic Motion. Simply put, simple harmonic motion is a motion ‘back and forth’ away from and back to equilibrium In SHM, the motion is.

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

Simple Harmonic Motion. Ideal Springs F Applied =kx k = spring constant x = displacement of the spring +x  pulled displacement -x  compressed displacement.

Chapter 11: Harmonic Motion

APHY201 1/30/ Simple Harmonic Motion   Periodic oscillations   Restoring Force: F = -kx   Force and acceleration are not constant  

Simple Harmonic Motion. Periodic Motion When a vibration or oscillation repeats itself over the same time period.

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

Chapter 12 Vibrations and Waves. Periodic Motion Any repeated motion Examples?

Phys 250 Ch14 p1 Chapter 13: Periodic Motion What we already know: Elastic Potential Energy energy stored in a stretched/compressed spring Force: Hooke’s.

Vibrations and Waves Chapter 11. Most object oscillate (vibrate) because solids are elastic and they will vibrate when given an impulse Tuning forks,

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

Oscillations. Definitions Frequency If an object vibrates or oscillates back and forth over the same path, each cycle taking the same amount of time,

SHM Hr Physics Chapter 11 Notes. Simple Harmonic Motion Objectives Identify the conditions of simple harmonic motion. Explain how force, velocity, and.

Chapter 11 Vibrations and Waves. Simple harmonic motion Measuring simple harmonic motion Properties of waves Wave interactions.

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.

Physics Section 11.2 Apply properties of pendulums and springs A pendulum exhibits harmonic motion. A complete cycle is called an oscillation. The maximum.

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.

Simple Harmonic Motion (SHM). Simple Harmonic Motion – Vibration about an equilibrium position in which a restoring force is proportional to displacement.

Simple Harmonic Motion  Simple Harmonic Motion – Vibration about an equilibrium position in which a restoring force is proportional to the displacement.

S H M a n d W a v e s B a s i c s. T h e O s c i l l a t o r When displaced from its vertical equilibrium position, this plastic ruler oscillates back.

Chapter 10 Waves and Vibrations Simple Harmonic Motion SHM.

Day 75, Friday, 18 December, 2015 Pendulums Waves Hooke’s Law Simple Harmonic Motion Pendulums.

Simple Harmonic Motion (SHM)

Chapter 14 – Vibrations and Waves. Every swing follows the same path This action is an example of vibrational motion vibrational motion - mechanical oscillations.

Simple Harmonic Motion

Physics Section 11.1 Apply harmonic motion

Unit D: Oscillatory Motion & Mechanical Waves

AP Physics Lecture Notes

Periodic Motion Oscillations: Stable Equilibrium: U  ½kx2 F  kx

Oscillations An Introduction.

Unit 4: Oscillatory Motion and Mechanical Waves

Harmonic Motion Chapter 11 Mr. Rassi.

Simple Harmonic Motion and Hooke’s Law

Oscillatory Motion Periodic motion Spring-mass system

Vibrations & Waves Part 1: Periodic Motion.

Oscillations and Harmonic Motion

Vibrations and Waves.

Simple Harmonic Motion

Periodic Motion Oscillations: Stable Equilibrium: U  ½kx2 F  -kx

Simple Harmonic Motion and Wave Interactions

Presentation transcript:

Whenever the force acting on an object is: Whenever the force acting on an object is: 1. Proportional to the displacement 2. In the opposite direction, the object exhibits simple harmonic motion (SHM). the object exhibits simple harmonic motion (SHM). Examples Examples 1. mass attached to a spring 2. simple pendulum.

Definitions of Terms Definitions of Terms Amplitude = A = the maximum displacement of the moving object from its equilibrium position.Amplitude = A = the maximum displacement of the moving object from its equilibrium position. Period = T = the time it takes the object to complete one full cycle of motion.Period = T = the time it takes the object to complete one full cycle of motion. Frequency = f = the number of cycles or vibrations per unit of time.Frequency = f = the number of cycles or vibrations per unit of time.

Vertical Spring Mass Attached to a Spring m x = 0 “Equilibrium Position” x < 0 x > 0 x = displacement from equilibrium

Period of an object on a vertical spring exhibiting SHM is: T = period m = mass of object K = spring constant

Force always opposite the displacement from equilibrium  If we stretch a spring with a mass on the end and let it go, the mass will oscillate back and forth (if there is no friction).  This oscillation is called Simple Harmonic Motion, because F is a restoring force. Horizontal Spring

As previously stated, a simple harmonic oscillator is any object that oscillates and is subject to a restoring force. Example: horizontal mass on the end of a spring. F is a linear restoring force. Hooke’s law F= -kx applies F X

The frequency and period of the simple harmonic oscillator are independent of the amplitude.

t Sine or cosine curve representation of a restoring force and simple harmonic motion.

Another View

Case 2 - The Simple Pendulum. A component of the weight acts as the restoring force Component of weight restoring mass to equilibrium mg sin 

Period for The Simple Pendulum: A pendulum is made by suspending a mass m at the end of a string A pendulum is made by suspending a mass m at the end of a string of length L. The period of oscillation for small displacements is given by the following formula. T = period L = length “g”= acceleration due to gravity

Period of a simple harmonic oscillator representation in the form of a cosine curve. T/4 = time for quarter cycle T/2 = time for half cycle 3T/2 = time for three quarters of a cycle

Simple Harmonic Motion and Circular Motion, compared to circular motion

Energy in Simple Harmonic Motion

Mass-Spring System -- Example 1 Car hitting a pothole in the road.