Week.  Student will: Wave Properties  Demonstrate Wave Properties.

Slides:

Advertisements

Similar presentations

“ a disturbance or variation that transfers energy progressively from point to point in a medium and that may take the form of an elastic deformation or.

Advertisements

Warm Up What is a wave? Name all the parts of a wave you can think of Name all the different kinds of waves you can think of.

Waves Wave Properties. Wave Definitions  Wave Rhythmic disturbance that transfers energy  Medium Material through which a disturbance travels  Mechanical.

Properties of Waves Chapter 12 Section 3.

Chapter 11 Wave Motion A wave is the motion of a disturbance.

WAVES PROPERTIES Chapter 11, Section 3. What is a wave? A wave is a disturbance that carries energy through matter or space.

Properties of Waves INSANE wave pool in Tokyo. Where's the water? - YouTube INSANE wave pool in Tokyo. Where's the water? - YouTube A wave is a disturbance.

Wave Theory Essential Question: What is a wave?. Answer Me!!!  Give an example of a wave. Then describe what that wave carries.

Waves Transferring Energy. Waves: traveling disturbance that carries energy from one place to another Waves travel through water, but they do not carry.

Objectives Identify the conditions of simple harmonic motion.

Energy in Waves. A Wave is… Any disturbance that transmits energy through matter or space. Energy in Waves.

Game Time! Review of Waves. Supplies Needed One white board for each student One dry erase marker for each student Paper towel to erase Calculator Thinking.

WAVES AS 2.3: Demonstrate an understanding of wave phenomenon.

Chapter 12: Vibrations and Waves Section 1: Simple harmonic motion Section 2: Measuring simple harmonic motion Section 3: Properties of waves Section 4:

Daily Challenge, 10/2 Give 3 examples of motions that are periodic, or repeating.

Chapter 11:Vibrartions and Waves

Waves Introduction Chapter 10 Section 1 and 2 Physics Standard 4.

Waves And Wave Properties Applied Physics and Chemistry SHM Lecture 2.

WAVES Wave - a periodic disturbance that propagates energy through a medium or space, without a corresponding transfer of matter. e.g.1 sound wave (regular.

Vibrations and Waves Parts and Properties of Waves Sine and Cosine Functions.

1 Vibration: A repeated back-and-forth or up-and-down motion. Energy: The ability to do work.

Chapter 11 Preview Objectives Hooke’s Law Sample Problem

Essential Question: How does data collected provide evidence that the amount of energy a wave carries determines the properties of a wave?

Waves Rhythmic disturbance that carries energy through matter or space.

12-3 Properties of Waves.  A wave is the motion of a disturbance.  Waves of almost every kind require a material medium to travel through.  Waves that.

Characteristics of Waves

Waves Chapter Wave motion A wave is the motion of a disturbance.

Waves & Wave Properties Introduction to Wave Properties

Wave Motion Types waves –mechanical waves require a medium to propagate –sound wave, water wave –electromagnetic waves not require a medium to propagate.

Waves. Wave Motion A wave travels along its medium, but the individual particles just move up and down.

WAVES Regular, Rhythmic disturbance in a field or medium where a transfer of energy occurs.

Waves and Wave Properties. A wave is a disturbance that carries energy from place to place. A wave does NOT carry matter with it! It just moves the matter.

Wave Properties Chapter 14.2 Page 381. Wave Properties Both particles and waves carry energy. – Particles move with the energy – Waves carry energy WITHOUT.

Waves. Definitions Wave: a disturbance that transfers energy through a medium. The matter does not experience net movement, but vibrates about some rest.

Waves What does energy have to do with waves?. What does energy have to do with the wave? All forms of energy travel from one point to another point in.

Starter What does ocean waves, sound, and light have in common? List three facts about each topic tht you already know.

What are Waves? A wave is a disturbance that transfers energy from place to place. Energy – the ability to do work The material through which a wave travels.

Physics Section 11.3 Apply the properties of waves A wave is a periodic disturbance that transfers energy by the vibration of matter, rather than the transfer.

Introduction to Waves. A wave is actually just a carrier of energy. Just like a Fireman in a bucket brigade. The fireman does not move, but the buckets.

Mechanical Waves.

Define “wave” Explain why there is no sound in space Define “period”

Wave Properties Unit 8.4.

Chapter 16 Waves motion.

Aim: What properties define wave classes?

Energy: Waves How does energy travel?.

Mechanical vs. Electromagnetic Waves

Essential Question: What are the types and properties of waves?

Waves & Sound Waves.

Ch. 12 Waves pgs

What are waves? A wave is a temporary disturbance that transfers energy from place to place.

Warm Up A pendulum with a length of 36.9 cm has a period of 1.22 sec. What is the gravitational field at the pendulum’s location? 9.78 m/s/s.

Vibrations and Waves 12-3 Properties of Waves.

11-3: PROPERTIES OF WAVES.

11-3: PROPERTIES OF WAVES.

Waves Introduction.

Waves Characteristics

Wave Properties Chapter 12.3.

2 Kinds of Waves (Particle Motion) 2 Kinds of Waves (Medium)

Vibrations and Waves.

6.1 Wave Properties.

Properties of waves.

Wave Properties.

Presentation transcript:

Week

 Student will: Wave Properties  Demonstrate Wave Properties

A wave is the motion of a disturbance A medium is a physical environment through which a disturbance can travel Waves that require a medium to travel through are Mechanical Waves Electromagnetic Waves such as light do not require a medium to travel

A Pulse Wave is a wave that consists of a single traveling pulse A Periodic Wave is when the source of a waves motion is periodic A Transverse Wave is a wave whose particles vibrate perpendicularly to the direction of the wave motion A Longitudinal Wave is a wave whose particles vibrate parallel to the direction of the wave motion

There are 3 parts to a wave The Wavelength (λ) is the distance between two adjacent similar points of a wave The Crest which is the highest point above the equilibrium position The Trough which is the lowest point below the equilibrium position A waves Amplitude is the distance from the equilibrium position to the crest

Speed of a wave is given by this equation V=fλ Wave speed = frequency x wavelength This applies to both mechanical and electromagnetic waves

Example: Wave Magneto is trying to create a magnetic wave to bring down a bridge that the x-men are trying to cross. If the wave he creates has a period of.02 s with a velocity of 150 m/s, what is the wavelength of his magnetic wave?

Given: v= 150 m/s T =.02s f = 50 Hz Unknown: λ= ? Steps 1)Define Magneto is trying to create a magnetic wave to bring down a bridge that the x-men are trying to cross. If the wave he creates has a period of 2 s with a velocity of 150 m/s, what is the wavelength of his magnetic wave?

Choose an equation or situation: Rearrange the equation to isolate the unknown: 2)Plan

Substitute the values into the equation and solve 3)Calculate