Presentation is loading. Please wait.

Presentation is loading. Please wait.

Doppler Shift Contents: What it is Moving Source Moving observer Whiteboards.

Published byGladys Johnson Modified over 8 years ago

Similar presentations

Presentation on theme: "Doppler Shift Contents: What it is Moving Source Moving observer Whiteboards."— Presentation transcript:

1

2 Doppler Shift Contents: What it is Moving Source Moving observer Whiteboards

3 Doppler Shift TOC Demo/examples: race cars, bells at RR crossing Frequency: (Key to understanding this) Higher approaching Lower receding Moving source/moving observer

4 Doppler Shift - moving source TOC Sitting Still

5 Doppler Shift - moving source TOC Source creates smaller wavelengths in front, longer in back Demo - Doppler appletDoppler applet Moving to the right

6 Doppler Shift - moving source TOC Derivation: ’ = + u s T f’ = shifted frequency f = original frequency v = speed of sound u s = speed of source When do you use + and - in the denominator?

7 Doppler Shift - moving observer TOC Motion of the source makes you experience different frequencies Observer

8 Doppler Shift - moving observer TOC Derivation:f = v/, f’= (v + u o )/ f’ = shifted frequency f = original frequency v = speed of sound u o = speed of observer When do you use + and - in the numerator?

9 An airplane with a 62.0 Hz engine flies away from you at 49.2 m/s. What frequency do you hear? (Use v =343 m/s ) (54.2 Hz) You are driving at 29.0 m/s toward a stationary 312 Hz siren. What frequency do you hear? (Use v = 343 m/s) (338 Hz)

10 Doppler Shift TOC

11 973. Hz W A man wearing a pointy hat screams at a perfect 1000. Hz while running away from you at 9.5 m/s. What frequency do you hear? (use v sound = 343 m/s) Source – receding f = 1000. Hz, u s = 9.5 m/s, v = 343 m/s, and +

12 81.5 Hz W Your father is nagging you at a pitch of 85.0 Hz, and you ride your motorized “Hello Kitty” skateboard away from him at 14.0 m/s. What frequency do you hear? (use v sound = 343 m/s) Observer, receding f = 85 hz, u o = 14 m/s, v = 343 m/s, and -

13 2052.3 Hz W You are running toward the Jo-Jo man with a quarter and a dime at 6.7 m/s. If the music from the truck is at a frequency of 2013 Hz, what is the frequency you hear? (use v sound = 343 m/s) Observer, Approaching f = 2013 hz, u o = 6.7 m/s, v = 343 m/s, and +

14 426 Hz W Duggan is playing the National Anthem on the electric guitar at the senior assembly. You are late, so you are running toward him at 11.2 m/s. If you hear his last note as an A 440 Hz, what is the real frequency he is making? (use v sound = 343 m/s) Observer, Approaching f’ = 440 hz, u o = 11.2 m/s, v = 343 m/s, and +

15 17.9 m/s, toward the source W A running person who is late for a concert hears the concertmaster who is playing an A 440. Hz. How fast and in what direction are they running if they hear a frequency of 463 Hz. (use v sound = 343 m/s) Moving observer, toward, use +

16 69.2 m/s away from you W What speed in what direction is a car moving if it has a 256 Hz horn, but you hear it at 213 Hz? (use v sound = 343 m/s) Moving source, away, use +

17 Moving source, then moving observer higher frequency, higher frequency f’ = f{ v } {v + u s } f = 256 hz, u s = 20.0 m/s, v = 343 m/s, and - f’ = f{v ± u o } { v } f = f’ from before, u o = 60.0 m/s, v = 343 m/s, and + 319.4 Hz W You are driving on a road, and a car coming the other way has a horn with a frequency of 256 Hz. The oncoming car is going 20.0 m/s toward you, and you are going 60.0 m/s toward them. What frequency do you hear?

18 Moving source higher frequency f’ = f{ v } {v + u s } f = 256 hz, u s = 40.0 m/s, v = 343 m/s, and - 290. Hz W A car with a 256 Hz horn approaches you at 40.0 m/s. What frequency do you hear? (3) (use v sound = 343 m/s)

Download ppt "Doppler Shift Contents: What it is Moving Source Moving observer Whiteboards."

Similar presentations

Doppler Effect Liu Po Shan Memorial College Chan Yick Nam.

Doppler Effect Liu Po Shan Memorial College Chan Yick Nam.
WAVES. Properties of Waves All waves carry energy from one point to another without transferring matter. As an example, when sound travels through air.

WAVES. Properties of Waves All waves carry energy from one point to another without transferring matter. As an example, when sound travels through air.
As the police car approaches, the sound waves from its siren are compressed towards the observer. The intervals between waves diminish, which.

As the police car approaches, the sound waves from its siren are compressed towards the observer. The intervals between waves diminish, which.
Chapter 14 Sound AP Physics B Lecture Notes.

Chapter 14 Sound AP Physics B Lecture Notes.
Sound. 1. The ____ of a sound is how high or low we hear its frequency. pitch.

Sound. 1. The ____ of a sound is how high or low we hear its frequency. pitch.
Doppler Effect Moving Source.

Doppler Effect Moving Source.
Doppler Effect.

Doppler Effect.
SMDEP Physics Waves: Standing Waves, Sound Waves Webpage updated:

SMDEP Physics Waves: Standing Waves, Sound Waves Webpage updated:
Sound Review. What type of wave is a sound wave? 1.Mechanical and Transverse 2.Mechanical and Longitudinal 3.Electromagnetic and Transverse 4.Electromagnetic.

Sound Review. What type of wave is a sound wave? 1.Mechanical and Transverse 2.Mechanical and Longitudinal 3.Electromagnetic and Transverse 4.Electromagnetic.
1© Manhattan Press (H.K.) Ltd. Source moving Observer moving Observer moving 11.5 Doppler effect Both source and observer moving Both source and observer.

1© Manhattan Press (H.K.) Ltd. Source moving Observer moving Observer moving 11.5 Doppler effect Both source and observer moving Both source and observer.
Doppler Effect. What sound do you hear when a car races by at the race track? Or when an ambulance/police car speeds by?

Doppler Effect. What sound do you hear when a car races by at the race track? Or when an ambulance/police car speeds by?
D OPPLER E FFECT. R ECAP FROM L AST WEEK … Intensity Level (a.k.a., loudness) Sound Intensity.

D OPPLER E FFECT. R ECAP FROM L AST WEEK … Intensity Level (a.k.a., loudness) Sound Intensity.
THE DOPPLER EFFECT Section 9.5. Key Terms  Doppler Effect.

THE DOPPLER EFFECT Section 9.5. Key Terms  Doppler Effect.
Doppler Shift + observer moving towards, - observer moving away, -source moving towards, + source moving away. v = speed of sound v o = observer speed.

Doppler Shift + observer moving towards, - observer moving away, -source moving towards, + source moving away. v = speed of sound v o = observer speed.
Section 14.6.  The Doppler Effect: A change in frequency (pitch) due to relative motion between a source of sound and its observer.

Section  The Doppler Effect: A change in frequency (pitch) due to relative motion between a source of sound and its observer.
***Doppler effect….

***Doppler effect….
Chapter 3: Sound Wave The Doppler Effect FCI 8-4-2013.

Chapter 3: Sound Wave The Doppler Effect FCI
Chapter 15.2 – Characteristics of Waves amplitude – the maximum distance that the particles of a wave’s medium vibrate from their rest position -in a transverse.

Chapter 15.2 – Characteristics of Waves amplitude – the maximum distance that the particles of a wave’s medium vibrate from their rest position -in a transverse.
Doppler Effect Physics 11.

Doppler Effect Physics 11.
THE DOPPLER EFFECT. When the source of a sound is moving towards you, the pitch sounds higher than that of the source. When the source moves away from.

THE DOPPLER EFFECT. When the source of a sound is moving towards you, the pitch sounds higher than that of the source. When the source moves away from.

Similar presentations

Ads by Google