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Wave a disturbance that propagates through a material medium or space.

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Presentation on theme: "Wave a disturbance that propagates through a material medium or space."— Presentation transcript:

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2 Wave a disturbance that propagates through a material medium or space.
In order for a mechanical wave to exist, energy is needed to create a disturbance in an elastic medium. Waves transfer energy without the bulk transport of matter.

3 ELECTROMAGNETIC waves.
No medium is needed for ELECTROMAGNETIC waves. Light, radio, x-rays, and gamma rays are some examples of e/m waves. All e/m waves travel through free space at a speed of approximately 3.00 x 108 m/s or 186,000 miles/sec. This speed is known as the speed of light.

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5 TRANSVERSE LONGITUDINAL
The displacement of the particles of the medium is perpendicular to the direction of wave propagation. LONGITUDINAL The displacement of the particles of the medium is parallel to the direction of wave propagation.

6 SURFACE A combination of transverse and longitudinal.
Click here, here, and here to view simulations of transverse and longitudinal waves.

7 the maximum displacement of a particle of the medium from
Amplitude the maximum displacement of a particle of the medium from the rest or equilibrium position denoted by A and measured in units of length

8 related to the position and motion of the particles of the medium
Phase related to the position and motion of the particles of the medium

9 the shortest distance between two points that are “in phase”
Wavelength the shortest distance between two points that are “in phase” denoted by l and measured in units of length

10 Frequency - the number of complete vibrations per unit time
denoted by f and measured in units of Hz Period - the shortest time interval during which the motion of the wave repeats itself denoted by T and measured in units of time T = 1/f & f = 1/T

11 v = d/t = l/T = f l Velocity - the speed of the wave
denoted by v and measured in units of dist/time The speed of a wave depends on the properties of the medium through which it is traveling. v = d/t = l/T = f l

12 Reflection the turning back of a wave when
it reaches the boundary of the medium through which it is traveling

13 the angle of incidence is equal to the angle of reflection
Law of Reflection the angle of incidence is equal to the angle of reflection

14 There are two types of reflection.
Fixed-end Termination the reflected wave is inverted when it reflects from a more dense medium Free-end Termination the reflected wave is upright when it reflects from a less dense medium Click here to view these types of reflection.

15 Refraction the bending of a wave as it passes obliquely from one medium into another of different propagation speed For refraction to occur, the wave must change speed and must enter the new medium at an oblique angle.

16 Diffraction the spreading of a wave around a barrier or
through an opening

17 Superposition Principle
Interference the result of the superposition of two or more waves Superposition Principle the displacement of the medium when two or more waves pass through it at the same time is the algebraic sum of the displacements caused by the individual waves

18 results in a larger amplitude results in a smaller amplitude
Types of Interference Constructive results in a larger amplitude Destructive results in a smaller amplitude

19 Read more about interference here. Click here to view the interference
pattern resulting from the superposition of two transverse waves. Click here and here to view simulations of the interference of two circular waves.

20 The ripple tank simulation found here can be used to investigate
wave properties. You can view reflection, refraction, diffraction, and interference using both plane and circular waves. Click here to view a movie clip of an actual ripple tank experiment.

21 result of two wave trains of the same
A standing wave is the result of two wave trains of the same wavelength, frequency, and amplitude traveling in opposite directions through the same medium.

22 Learn more about standing waves here, here, and here.
Click here to view a simulation of the interference of two traveling waves that can result in a standing wave. Click here to view a simulation of standing waves on a string. Standing waves may be produced easily in water, string, and air columns.

23 Doppler Effect the change in frequency due to the relative
motion of the wave source and the observer The observed frequency is higher when the source and observer are getting closer. The observed frequency is lower when the source and observer are getting farther away.

24 Click here, here, here, and here
to run simulations of the Doppler Effect. The Doppler Effect can be evident for all types of waves – including light, sound, water, etc…

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