1. Simple Harmonic Motion The oscillatory- or back and forth- motion of a pendulum. Can be represented by a sin curve Waves follow the same pattern

2. Wave Descriptions The high points on a wave are called crests. The low points on a wave are called troughs. The term amplitude refers to the distance from the midpoint to the crest (or trough) of the wave. Wavelength is the distance between the crests (or troughs) of a wave

3. Frequency The number of vibrations an object makes per unit of time Can be either the frequency of the vibrating source causing the wave or of the wave itself Example: The number of times a crest passes you in 5 seconds.

4. Frequency is measured in Hertz (Hz) Represents the number of cycles per second. If one wave passed a given point every second, it would have a frequency of 1 Hz Radio waves are measured to have a frequency of 960 kHz, which is relatively low

5. If we know the frequency, we can calculate the period, or vice versa Suppose, for example, that a pendulum makes two vibrations in one second. Its frequency is 2 Hz. The time needed to complete one vibration—that is, the period of vibration—is 1/2 second.

6. The energy transferred by a wave from a vibrating source to a receiver is carried by a disturbance in a medium. It is important to note that the disturbance is what is moving and not the medium itself

7. Wave speed Wave speed depends on the medium that the wave is traveling through However, no matter what the wave is traveling through, the wavelength, frequency and speed are related through the equation: v = f where v is wave speed, is wavelength, and f is wave frequency.

8. Wavelength and frequency vary inversely to produce the same wave speed for all sounds.

9. If a water wave vibrates up and down two times each second and the distance between wave crests is 1.5 m, what is the frequency of the wave? What is its wavelength? What is its speed?

10. What is the wavelength of a 340-Hz sound wave when the speed of sound in air is 340 m/s?

11. Types of waves

12. Transverse The motion of the particles being displaced is perpendicular to the wave motion

13. Longitudinal The motion of the particles is parallel to the motion of the waves.

14. Interference Occurs when waves from different sources meet at the same point at the same time An interference pattern is a regular arrangement of places where wave effects are increased, decreased, or neutralized.

15. In constructive interference, the crest of one wave overlaps the crest of another and their individual effects add together. The result is a wave of increased amplitude, called reinforcement.

16. In destructive interference, the crest of one wave overlaps the trough of another and their individual effects are reduced. The high part of one wave fills in the low part of another, called cancellation

17. https://www.youtube.com/watch?v=wYoxOJDrZzw A standing wave is a wave that appears to stay in one place—it does not seem to move through the medium. Nodes are the stationary points on a standing wave. Hold your fingers on either side of the rope at a node, and the rope will not touch them. The positions on a standing wave with the largest amplitudes are known as antinodes. Antinodes occur halfway between nodes.

18. The Doppler Effect As a wave source approaches, an observer encounters waves with a higher frequency. As the wave source moves away, an observer encounters waves with a lower frequency.

19. View in presentation mod to see waves- No Doppler effect

20. Doppler effect

22. Observer Moving: Towards source: add v s Away from source: Subtract v s Source Moving: Towards observer: subtract v o Away from observer: add v o