College and Engineering Physics Quiz 9: Simple Harmonic Motion 1 Simple Harmonic Motion.

Slides:

Advertisements

Similar presentations

Periodic motion Frequency Period. Periodic motion – Any motion that repeats itself.

Advertisements

Chapter 14 4 Oscillations. Section 14-1: Simple Harmonic Motion A simple harmonic oscillator is any system that oscillates. An example of this is a mass.

Nov. 26, 2001 Dr. Larry Dennis, FSU Department of Physics1 Physics 2053C – Fall 2001 Chapter 11 Simple Harmonic Motion.

Applications of Trigonometric Functions Section 4.8.

Lab 5: Damped simple harmonic motion

Motion near an equilibrium position can be approximated by SHM

ConcepTest 13.1a Harmonic Motion I 1) 0 2) A/2 3) A 4) 2A 5) 4A A mass on a spring in SHM has amplitude A and period T. What is the total distance traveled.

P H Y S I C S Chapter 7: Waves and Vibrations Section 7B: SHM of a Pendulum.

Chapter 13 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.

The Simple Pendulum. Recall from lecture that a pendulum will execute simple harmonic motion for small amplitude vibrations. Recall from lecture that.

Describing Periodic Motion AP Physics. Hooke’s Law.

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

Simple Harmonic Motion

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

1 Honors Physics 1 Class 18 Fall 2013 Harmonic motion Unit circle and the phasor Solution to the spring differential equation Initial and boundary conditions.

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

Chapter 14 Outline Periodic Motion Oscillations Amplitude, period, frequency Simple harmonic motion Displacement, velocity, and acceleration Energy in.

The Simple Pendulum A simple pendulum consists of a mass at the end of a lightweight cord. We assume that the cord does not stretch, and that its mass.

Review Exam 1. Simple Harmonic Motion 11-1 Simple Harmonic Motion The force exerted by the spring depends on the displacement: (11-1)

Oscillatory Motion Serway & Jewett (Chapter 15).

Simple Harmonic Motion - Acceleration, position, velocity Contents: Kinematics.

P H Y S I C S Chapter 7: Waves and Vibrations Section 7A: Hooke's Law and SHM of a Mass-Spring System.

Masses Go To and Fro Oscillating Systems. Periodic Motion OSCILLATION – a periodic variation from one state to another SIMPLE HARMONIC OSCILLATOR– an.

Chapter 11 Vibrations and Waves.

Chapter 6--Potential Energy of a Spring System Surroundings.

8/8/2011 Physics 111 Practice Problem Statements 14 Oscillations SJ 8th Ed.: Chap 15.1 – 15.5 Oscillations – Basics Hooke’s Law: A Mass on a Spring Simple.

Fluid Dynamics How does conservation of mass apply in a fluid? How does conservation of energy apply in a fluid? What is laminar flow? What is turbulence.

Physics 321 Hour 11 Simple and Damped Harmonic Oscillators.

Chapter 19 Physics A First Course Vibrations, Waves, and Sound.

Uniform Circular Motion Side View of Uniform Circular Motion.

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

Oscillations Objectives: (d) define simple harmonic motion; (e) select and apply the equation a = – (2πf) 2 x as the defining equation of simple harmonic.

Oscillations 1. Different types of motion: Uniform motion 1D motion with constant acceleration Projectile motion Circular motion Oscillations 2. Different.

Chapter 11: Harmonic Motion

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

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)

Simple Harmonic Motion Physics is phun!. a) 2.65 rad/s b) m/s 1. a) What is the angular velocity of a Simple Harmonic Oscillator with a period of.

Simple Harmonic Motion - Acceleration, position, velocity Contents: Kinematics.

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.

Oscillations Readings: Chapter 14.

Physics 1D03 - Lecture 331 Harmonic Motion ( II ) (Serway 15.2, 15.3) Mass and Spring Energy in SHM.

College and Engineering Physics Simple Harmonic Motion 1 TOC Simple harmonic motion defined Simple harmonic motion is the motion of any system in which.

Oscillations SHM 1 Simple harmonic motion defined Simple harmonic motion is the motion of any system in which the position of an object can be put in the.

Simple Harmonic Motion

Simple Harmonic Motion

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

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

Section 19.2 Graphs of Harmonic Motion. Review Frequency and period are inversely related. The period is the time per cycle. (cycle-unit of repeating.

4. Harmonic oscillations

A C B equilibrium.

Oscillations 1. Different types of motion:

Period of Simple Harmonic Motion

Oscillatory Motion Serway & Jewett (Chapter 15).

Simple Harmonic Motion - Kinematics

7.5 Simple Harmonic Motion; Damped Motion; Combining Waves

Oscillations Readings: Chapter 14.

Constant Force (F = constant)

Physics 111 Practice Problem Solutions 14 Oscillations SJ 8th Ed

Damped Oscillations.

14 Oscillations and Waves

Physics A First Course Vibrations, Waves, and Sound Chapter 19.

Harmonic Motion (II) Mass and Spring Energy in SHM

What is the motion simple pendulum called?

PHY207 – The Physics of Music

This waveform is 35.0 cm long. How long is the wavelength?

5.1 Oscillations Oscillation: any general movement that repeats itself

Oscillations Energies of S.H.M.

Presentation transcript:

College and Engineering Physics Quiz 9: Simple Harmonic Motion 1 Simple Harmonic Motion

College and Engineering Physics Quiz 9: Simple Harmonic Motion 2 Which of the following equations represent simple harmonic motion? A. B. C. D. E.

College and Engineering Physics Quiz 9: Simple Harmonic Motion 3 This object is oscillating in simple harmonic motion. Use the clock on the wall to determine its period ( T ).

College and Engineering Physics Quiz 9: Simple Harmonic Motion 4 This object is oscillating in simple harmonic motion. Use the clock on the wall to determine its frequency ( f ).

College and Engineering Physics Quiz 9: Simple Harmonic Motion 5 This object is oscillating in simple harmonic motion. Use the clock on the wall to determine its frequency (  ).

College and Engineering Physics Quiz 9: Simple Harmonic Motion 6 This object is oscillating in simple harmonic motion. What is its amplitude ( A ). 60 cm

College and Engineering Physics Quiz 9: Simple Harmonic Motion 7 This object is oscillating in simple harmonic motion. The mass of the object is 10 g. What is its total energy ( E Total ). 60 cm