Lecture 42 – Lecture 43 The Behavior of Waves Ozgur Unal

Slides:



Advertisements
Similar presentations
Chapter 10 Waves.
Advertisements

The Behavior of Waves.
Chapter 11-Sect. 3 Behavior of Waves. Reflection Reflection-occurs when a wave strikes an object and bounces off of it All waves (including sound, water.
The Behavior of Waves Section Reflection All types of waves can be reflected Light, sound, ocean, etc. Used by bats and dolphins Reflection- when.
Section 3 - The Behavior of Waves
Chapter 14 Waves.
Unit 7 Waves Chapter 11 Pages
Section 3: Behavior of Waves. Reflection Reflection occurs when a wave strikes an object and bounces off of the object. All types of waves (water, sound,
The Interaction of Waves
Waves!.
Behavior of Waves Reflection, Refraction, Diffraction and Interference in waves.
Ch. 10,11, 13 Waves. Name some waves Water Sound Light Radio waves (TV) Microwaves (cell phones) X-rays Ultrasound Earthquakes! (seismic waves)
McNair Middle School Physical Science. Wave Interactions Reflection Reflection The.
Waves. What are waves? Wave: a disturbance that transfers energy from place to place. (Energy from a wave of water can lift a boat.) Medium: –the state.
WAVES. The Nature of Waves A. Wave - a repeating disturbance or movement that transfers energy through matter or space. 1. Molecules pass energy on to.
Chapter 1 Interactions of waves. Key Terms Reflection Refraction Interference Constructive interference Standing wave Antinode Law of reflection Diffraction.
What is a wave?  A wave is a transfer of energy from one point to another via a traveling disturbance  A wave is characterized by its wavelength, frequency,
Waves Chapter 10. The Nature of Waves wave: repeating disturbance or movement that transfers energy through matter or space -examples: light, ocean, sound,
The Nature of Waves What is a wave? A wave is a repeating disturbance or movement that transfers energy through matter or space Waves transfer energy.
Wave Interactions Describe refection, refraction, diffraction, and interference Compare destructive interference with constructive interference Describe.
The Behavior of Waves
Chapter 22 Objectives Describe reflection, refraction, diffraction, and interference. Compare destructive interference with constructive interference.
Wave Interactions.
Chapter 9: Introduction to Waves
Waves behave in predictable ways.
The Behavior of Waves. Reflection Reflection – when a wave strikes an object and bounces off of it All types of waves can be reflected.
Chapter 20 – The Energy of Waves
Chapter 11 Section 3. Introduction What happens to a ball when it hits the wall? What happens to a ball when it hits the wall? How do you think a ball.
17.3 Behavior of Waves.
10 Chapter 10: Waves Unit 3: Energy On the Move Table of Contents : The Behavior of WavesThe Behavior of Waves 10.1: The Nature of Waves 10.2:
Wave Interactions Chapter 15.3 Notes. Section Overview Reflection occurs when a wave meets a surface or boundary and bounces back Diffraction occurs when.
14.2 Characteristics of Waves / 14.3 Wave Interactions I can: -recognize that waves may be absorbed by objects and be transformed into another energy.
The Behavior of Waves Wave Speed Remember: Waves change speed when they encounter a boundary and enter a new medium.
The Behavior of Waves Chapter 17:3. Science Journal Entry 34 Compare and contrast transverse waves, longitudinal waves, and surface waves.
Waves What are waves?.
Waves Bill Nye Tsunami
Wave BEHAVIORS/interactions
WAVES.
Section 3: Behavior of Waves
Interactions of Waves Chapter 15 Section 3.
Ch. 20 Sec. 3 Wave Interactions & Behaviors
Notes 3: The Behavior of Waves
HONORS.
Waves.
15.3 Interactions of waves Key concepts: How do reflection, refraction, and diffraction change a wave’s direction? What are the different types of interference?
Wave Interactions.
Warm Up 1. How are longitudinal wavelengths measured?
Reflection Reflection occurs when a wave strikes an object and bounces off of it. All types of wavesincluding sound, water and light wavescan be reflected.
Wave Behavior – 1.3 Key Ideas
Waves.
Wave Properties & Interactions
Section 3-3 Wave Interactions.
Vibrations and Waves Wave Interactions.
Waves.
Wave Behaviors We will discuss different manners in which a wave can behave when it comes in contact with matter or other waves!
WAVES The Behavior of Waves
Unit 7 Waves Chapter 11 Pages
P. Sci. Unit 5 Waves Cont..
Thurs. Mar. 6 Do Now: Circle the type of wave that needs a medium through which to travel: Mechanical or Electromagnetic  A wave has a wavelength.
The Behavior of Waves.
Properties of Waves & Interactions
Vibrations and Waves Wave Interactions.
WAVES Wave Interactions.
Behavior of Waves.
Wave Interactions.
Behavior of Waves Chapter 10.3.
Interactions of waves.
WAVES.
17.3 Behaviors of Waves Reflection Refraction Diffraction
Wave Interactions Chapter 11 Section 3.
Presentation transcript:

Lecture 42 – Lecture 43 The Behavior of Waves Ozgur Unal NIS – PHYSICAL SCIENCE Lecture 42 – Lecture 43 The Behavior of Waves Ozgur Unal

Reflection Everyday you look at yourself in the mirror You probably heard the echo of your voice somewhere How are these possible? Reflection occurs when a wave strikes an object and bounces off it. Light waves are reflected twice (from your face and from the mirror) when you see your face in the mirror. Echoes form when sound waves reflect off a surface.

Reflection According to the law of reflection, the angle of incidence is equal to the angle of reflection.

Refraction Why does the pen in the glass look broken? The speed of a wave depends on the medium it is moving through. When a wave passes from one medium to another it changes its speed. If the wave is traveling at an angle when it passes from one medium to another, it changes direction, or bends, as it changes its speed. Refraction is the bending of a wave caused by a change in its speed as it moves fro mone medium to another.

Refraction Example: Light waves travel more slowly in water that in air. This causes light waves to change direction when they move from water to air or air to water. Objects that are under water seem closer to the surface than they really are. This is because of refraction of light rays as they pass from water to air.

Diffraction How can you describe the change in these waves as they pass around the rocks? Diffraction occurs when an object causes a wave to change direction and bend around it. Diffraction and refraction both causes waves to bend. The difference is that refraction occurs when waves pass through an object, while diffraction occurs when waves pass around an object (or, through an opening).

Diffraction The amount of diffraction that occurs depends on how big the obstacle or opening is compared to the wavelength. If the obstacle is smaller than wavelength, the waves bend around it. If the obstacle is larger than the wavelength, the waves do not diffract much. Explain why we cannot see a person talking around a corner although we can hear her.

Interference When two or more waves overlap and combine to form a new wave, the process is called interference. This new wave exists only while the two original wave continue to overlap. There are two ways that the waves can combine: Constructive interference vs Destructive interference

Interference Constructive interference: In constructive interference the waves add together. Destructive interference: In destructive interference the waves subtract from each other as they overlap. Can compressional waves, such as sound, have interference?

Standing Waves www.walter-fendt.de/ph14e/stwaverefl.htm A standing wave is a special type of wave pattern that forms when waves equal in wavelength and amplitude, but traveling in opposite directions, continuously interfere with each other. The places where the two waves always cancel are called nodes. The nodes always stay in the same place on the rope. Meanwhile, the wave pattern vibrates between the nodes. Example: Standing waves in a violin string.

Resonance The tuning forks of different type vibrate at certain frequencies called natural frequencies. All objects have their own natural frequencies. Natural frequencies depend on the object’s size, shape and the material it is made from. An object can be made to vibrate at its natural frequency. Example: A tuning fork with natural frequency of 512 Hz starts vibrating by a sound wave with a frequency of 512 Hz. The process by which an object is made to vibrate by absorbing energy at its natural frequency is called resonance.

Resonance Sometimes, resonance can cause disasters  see the handout