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Waves & Normal Modes Prof. Ma2 Jarvis [email protected] Hilary Term 2015

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Page 1: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

Waves  &  Normal  Modes  

Prof.  Ma2  Jarvis  [email protected]  

Hilary  Term  2015  

Page 2: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

General  Details  •  12 lectures

•  Notes will be available to download every 1-2 weeks.

•  These will NOT be complete, so pay attention in the lectures

•  Unintentional mistakes may occur – please let me know in lectures or via email if you spot anything

•  3 problem sheets will be distributed. These are inherited from previous lecturers of this course – many thanks to them

•  Material will be posted on https://www2.physics.ox.ac.uk/contacts/people/jarvis (under “Teaching”)

•  Thanks also to Guy Wilkinson for his lecture notes on this course

Page 3: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

Text  Books  

•  Vibrations & Waves, A.P. French, MIT Introductory Physics Series

•  Vibrations and waves in Physics, I.G. Main, CUP

•  Waves, C.A. Coulson & A. Jeffrey, Longman Mathematical Texts

Page 4: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

VibraIons  &  Waves  in  Physics  

•  Although we will only use specific examples during this course, the physics of waves and vibrations underpin many different areas of physics that you will comes across over the next 3-4 years.

•  For example: •  Electromagnetism •  Quantum Mechanics •  Cosmology

Page 5: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

Coupled  Pendula  

EquaIons  of  MoIon  for  each  pendulum…  

Page 6: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

How  to  solve?  Equations of Motion:                Two equations and two unknowns, x and y First we will use the so-called `decoupling method’ Which involves decoupling the equations from each other and solving the decoupled equations individually.  

(1)  

(2)  

Page 7: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

Decoupling  Method  Equations of Motion:        Adding (1) and (2)  

(1)  

(2)  

Looks very similar to the standard wave equation… define

with  

SHM!!!  A1 & ϕ1 are constants set by boundary conditions

Page 8: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

Decoupling  Method  Equations of Motion:         Subtracting (2) from (1)  

(1)  

(2)  

This time

with  

A2 & ϕ2 are constants set by boundary conditions

Page 9: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

Normal  Modes  of  Coupled  Pendulum  •  The first normal mode: centre-of-mass motion

•  The second normal mode: relative motion

Page 10: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

Normal  Modes  of  Coupled  Pendulum  The variables q1 and q2 are called the mode, or normal, coordinates In any normal mode only one of these coordinates is active at any one time (i.e. either q1 is vibrating harmonically and q2 is zero or vice versa) It is more common to define the mode coordinates with a normalising factor in front (in this case 1/√2 )  

This  means  that  the  vector  defined  by  (q1,q2)  has  same  length  as  that  defined  by  (x,y),  i.e.  q12  +  q22  =  x2  +  y2.  This  factor  changes  none  of  results  we  obtained.  

Page 11: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

General  SoluIon  for  a  Coupled  Pendulum  

The General Solution is a sum of the two normal modes  

The constants are just set by the initial conditions

Page 12: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

Coupled  Pendulum:  Different  IniIal  CondiIons  

Example 1 Plugging  these  iniIal  condiIons  into  the  general  soluIon  gives:  

x

-y

x

+y

y

x

       Time  

a

-a

Page 13: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

Example 2 Gives…

x-y

x+y

y

x

       Time  

-v/ω2

v/ω2

Coupled  Pendulum:  Different  IniIal  CondiIons  

Page 14: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

Example 3 Gives…

x-y

x+y

y

x

       Time  

-a

a

Coupled  Pendulum:  Different  IniIal  CondiIons  

Page 15: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

Example 3

Coupled  Pendulum:  Different  IniIal  CondiIons  

Let…

Page 16: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

Example 3

x

-y

x

+y

y

x

     Time  

-a

a In this example both of the normal modes are excited

‘Beats’ – energy is being transferred between pendula

Coupled  Pendulum:  Different  IniIal  CondiIons  

Page 17: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

Coupled  Pendulum:  Energy  

Calculate total energy of the system U = KE + PE = T + V

Kinetic Energy

Potential Energy

Page 18: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

Coupled  Pendulum:  Energy  

Can also calculate Potential Energy using

Neglecting the constant, C, which is an arbitrary offset

Page 19: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

Coupled  Pendulum:  Energy  

This is a bit unwieldy. Why don’t we go back to the normal coordinates and see what it looks like?

The cross-term in V has now disappeared

Energy  in  mode  1   Energy  in  mode  2  

Total energy in the system = sum of energies in each mode

Page 20: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

With  –w  being  the  eigenvalues  

Page 21: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and
Page 22: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and
Page 23: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and

Unequal  coupled  pendula  

•  Up  unIl  now  we  have  only  considered  the  case  where  the  2  pendula  were  of  the  same  length  

•  Now  we  will  find  the  equaIons  of  moIon  for  pendula  of  unequal  length  

 

Page 24: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and
Page 25: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and
Page 26: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and
Page 27: Prof.&Ma&Jarvis& ma.jarvis@astro.ox.ac.uk & … · • Vibrations & Waves, A.P. French, MIT Introductory Physics Series • Vibrations and waves in Physics, I.G. ... of waves and
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