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Page 1: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Waves Revision

Page 2: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 3: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 4: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 5: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 6: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 7: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 8: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 9: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 10: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 11: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 12: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 13: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 14: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Sep 2012, Q3

And remember v=ω/k

Page 15: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 16: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 17: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 18: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 19: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 20: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 21: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 22: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 23: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

y(x,t) = (Acoskx+Bsinkx)(Ccoskct + Dsinkct)

Or e.g. d’Alambert y(x,t) = Asin(kx -‐ ω t) + Bsin(kx + ωt)

Page 24: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

Page 25: Waves&Revision& · Waves - syllabus Focus first on the below topics Derivation of the one-dimensional wave equation and its applica- tion to transverse waves on a stretched string.

WAVES NX HRTF SITE

WAVES NX HRTF SITE

Lecture 6 - UMD Physics · Lecture 6 • Sinusoidal waves ... • A 2.31 kg rope is stretched between supports 10.4 m apart. If one end of the rope is tweaked, how long will it take

Lecture 6 - UMD Physics · Lecture 6 • Sinusoidal waves ... • A 2.31 kg rope is stretched between supports 10.4 m apart. If one end of the rope is tweaked, how long will it take

Waves: τα δημιουργικάκύματα τηςeliton είναιεδώ

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Gravity waves: introduction and global view · Gravity waves: introduction and global view Peter Preusse ... Structure of middle atmosphere ... ⇒ −fv = X X by planetary waves

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Waves Rossby waves 2/ 12 11 { Waves and Instabilities · Waves Rossby waves 3/ 12 I "vorticity wave" !Rossby wave dispersion relation k 1 k2 + R 2 with Rossby radius R = p gH=jf jand

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Plane waves and spatial frequencyPlane waves and spatial …optics.hanyang.ac.kr › ~shsong › 2-spatial frequency.pdf · 2016-08-31 · Plane waves and spatial frequencyPlane waves

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2.3a Waves Waves Breithaupt pages 174 to 185 April 11 th, 2010.

2.3a Waves Waves Breithaupt pages 174 to 185 April 11 th, 2010.