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Chapter 14 Notes Vibrations and Waves. Section 14.1 Objectives Use Hooke’s law to calculate the force exerted by a spring. Calculate potential energy.

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Presentation on theme: "Chapter 14 Notes Vibrations and Waves. Section 14.1 Objectives Use Hooke’s law to calculate the force exerted by a spring. Calculate potential energy."— Presentation transcript:

1 Chapter 14 Notes Vibrations and Waves

2 Section 14.1 Objectives Use Hooke’s law to calculate the force exerted by a spring. Calculate potential energy of an elastic spring. Identify objects in simple harmonic motion. Determine variables that affect the period of a pendulum. Describe the affect of resonance on an object.

3 Periodic Motion Examples – clock pendulum, vibrating guitar string

4 Simple Harmonic Motion Described by two quantities: – Period – Amplitude

5 Hooke’s Law

6 Potential Energy in a Spring

7 Example Problem A spring stretches by 18 cm when a bag of potatoes weighing 56 N is suspended from its end. a.Determine the spring constant. b.How much elastic potential energy is stored in the spring when it is stretched this far?

8 Pendulums

9 Example Problem How long must a pendulum be on the Moon, where g=1.6 m/s 2, to have a period of 2.0 s?

10 Resonance

11 Section 14.2 Objectives Differentiate between transverse and longitudinal waves. Determine wave speed, wavelength, and frequency using corresponding equations.

12 Mechanical Waves Types – Transverse – Longitudinal – Surface

13 Transverse Waves

14 Longitudinal Waves

15 Surface Waves

16 Measuring a Wave Speed Amplitude Wavelength Phase Period Frequency

17

18 Example Problem A sound wave has a frequency of 192 Hz and travels the length of a football field, 91.4 m, in 0.271 s. a)What is the speed of the wave? b)What is the wavelength of the wave? c)What is the period of the wave? d)If the frequency was changed to 442 Hz, what would be the new wavelength and period?

19 Section 14.3 Objectives Relate a wave’s speed to the medium in which the wave travels. Describe the motion of a wave as it encounters boundaries. Apply the principle of superposition to wave interference.

20 Waves at Boundaries

21 Free boundary – http://www.physicsclassroom.com/mmedia/ waves/free.cfm http://www.physicsclassroom.com/mmedia/ waves/free.cfm Fixed boundary – http://www.physicsclassroom.com/mmedia/ waves/fix.cfm http://www.physicsclassroom.com/mmedia/ waves/fix.cfm

22 Superposition of Waves Interference – Constructive – Destructive http://www.physicsclassroom.com/Class/ waves/U10L3c.cfm http://www.physicsclassroom.com/Class/ waves/U10L3c.cfm

23 Standing Waves

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