ULTRASONIC APPLICATIONS Two categories of ultrasonic applications :  Low Intensity Application  High Intensity Application  Using information carried.

Slides:

Advertisements

Similar presentations

Electromagnetic Waves

Advertisements

The Electromagnetic Spectrum. Behavior of Light All light travels at the same speed 1.Behaves as a particle (photon) 2.Behaves as a wave: travels through.

What is a sound wave? Mechanical wave – longitudinal *A vibration *Particles of medium are disturbed *Causes a wave causes Most common medium is air Can.

Thermal Energy. 1.Thermal Energy is the vibration or movement of atoms and molecules. 2.All matter has thermal energy because the atoms are always moving.

Phy 202: General Physics II Ch 16: Waves & Sound Lecture Notes.

Phy 212: General Physics II

Heat Energy Transfer Conduction, Convention & Radiation.

KINETIC THEORY OF MATTER Lesson objectives. Student (i) states the three states of matter.

FIELD AND TYPE OF ULTRASONIC APPLICATIONS PROCESSING UNIT ANALYZER UNIT MEASURING UNIT DISPLAY UNIT RECEIVER UNIT TRANSMITTER UNIT TR OBJECT GENERAL ULTRASONIC.

Waves and Sound. Waves and Sound Auto slide change for this page, WAIT….. Introduction Auto slide change for this page, WAIT…..

1.Sound must have a medium through which to travel. Through which medium – solid, liquid, or gas – does sound travel faster? 2.How are different musical.

Chapter Review. Ch. 11 page , 4, 7, 8, 12, 14, 16, 19, 21, 23-25, 31, 32, 35, 37, 41, Oscillation about an equilibrium position in.

Chapter 10: Sound Section 1: The Nature of Sound

C HAPTER 16 S OUND Nuay, Emmanuel Barquila, Rae Angelo Delos Reyes, Remjun.

WAVES l wave = disturbance that propagates “disturbance” e.g., displacement of medium element from its equilibrium position; propagation can be in medium.

Sound Overview The Facts of Sound The Ear and Sound Sound Vocabulary Musical Instruments and Sound.

6/3/2016 Ch Types of Waves 1. Wave Types 2.

Waves: An introduction

Light Waves. A. ELECTROMAGNETIC WAVES 1. Do not require a medium to travel through 2. They transfer energy without transferring particles 3. Travel by.

Making Sound Waves Sound waves are compressional (longitudinal) Caused by vibrations Are mechanical- can travel ONLY through matter Energy is transferred.

Density Mrs. Myers. DENSITY Density: The amount of mass in a certain volume.

17.4 Sound and Hearing You can identify sounds without seeing them because sound waves carry information to your ears. People who work in places where.

Types of Waves and Wave Properties. Mechanical Waves What is a mechanical wave? A rhythmic disturbance that allows energy to be transferred through matter.

Sound Waves Sound A form of energy that causes molecules of a medium to vibrate back and forth in a series of compressions and rarefactions as a longitudinal.

26.1 The Origin of Sound What is the source of all sound?

{ Trends in the Periodic Table.  COLUMNS in the periodic table  Also called “Families”  Similar characteristics Groups.

What we will do today Carry out experiments on sound waves. State that for sound to be produced an object must vibrate. State that sound is a wave which.

Sound Chapter Properties of Sound  Sound waves are caused by vibrations and carry energy through a medium.  The speed of sound depends on the.

$100 $400 $300 $200 $400 $200 $100$100 $400 $200$200 $500$500 $300 $200 $500 $100 $300 $100 $300 $500 $300 $400$400 $500.

Sound Notes. Sound Waves Sound is a disturbance that travels through a medium as a longitudinal wave. Sound waves are longitudinal waves that begin with.

Mechanical Waves Wave Characteristics Say What?! Wave Examples Vocabulary $ $ $ $ $ $ $ $ $ $

Electromagnetic energy (light) is an example of a transverse wave. Electromagnetic Energy (Light):

Conduction, Convention & Radiation

Physics 7E Prof. D. Casper.

Chapter 17 Waves II In this chapter we will study sound waves and concentrate on the following topics: Speed of sound waves.

SOUND Energy in Waves.

sound pitch wave amplitude frequency volume resonance wavelength

Unit: Sound and Light Lesson 1 “The Nature of Sound”

Conceptual Physics Notes on Chapter 26 Sound.

Why are we able to see? Answer: Because there is light. And…what is light? Answer: Light is a wave. So…what is a wave?

Chapter 15 Waves Mrs. T..

Wave Parts WAVES.

Comparing Energy.

Radiation: Particles, Waves, Rays

What Are Waves? Chapter 15 Section 1.

Nature of Waves Chapter 10.1.

Ch Waves & Sound II. The Nature of Sound Speed of Sound

Ch Waves & Sound II. The Nature of Sound Speed of Sound

NDE Videos 1/3 1) Non-destructive testing (NDT) at TWI (0:14:15) 2) NDT : Non destructive testing methods and.

Ch Waves & Sound II. The Nature of Sound Speed of Sound

Think, Pair, Share Activity

8.2 Measuring Earthquakes

What is the first thing you think of when you think of “radiation?”

Think, Pair, Share Activity

Sound Sound waves are longitudinal waves because the vibrations of air molecules is parallel to the direction of wave motion. Look at tuning fork – as.

Electromagnetic Waves

Waves Physics Notes.

Ch. 16 – Wave interaction II. The Nature of Sound Speed of Sound

Sound Chapter 11.

Sound Chapter 26.1 – 26.4.

In a wave pool, the waves carry energy across the pool

Sound: The Science of Music

Mechanical Waves.

In a wave pool, the waves carry energy across the pool

Learning Target 4.1 – Understand that waves carry energy (not matter) from place to place. Unit 4 - Waves.

Unit 4 - Energy Learning Target 4.5 – Understand & describe wave interference (constructive & destructive).

Presentation transcript:

ULTRASONIC APPLICATIONS Two categories of ultrasonic applications :  Low Intensity Application  High Intensity Application  Using information carried by ultrasonic waves after propagating through a medium or material or after interaction with an object.  Does not influence the medium, material or object  Can be subdivided in three types of applications :  Ultrasonic Non Destructive Testing (NDT)  Ultrasonic Non Destructive Evaluation (NDE)  Ultrasonic Instrumentation Low Intensity Application :

 Using energy of ultrasonic wave for influencing the medium or material  Material processing with ultrasonic (macrosonics)  The medium or material can be gases, liquids or solids.  There are many macrosonic applications : High Intensity Application :  Ultrasonic Cleaning  Ultrasonic Welding/Soldering  Ultrasonic Drilling/Boring/Cutting  Ultrasonic Atomization  Ultrasonic Agglomeration/Precipitation  Ultrasonic Emulsification  Ultrasonic Degassing  Ultrasonic Drying

TYPE AND FIELD OF APPLICATION OF ULTRASONIC WAVE