Ultrasound Learning Objectives

Slides:

Advertisements

Similar presentations

ULTRASONIC SOUND  The sounds having too high frequencies which cannot be heard by human beings are called ultrasonic sound or ultrasound.  In other.

Advertisements

Chapter 17 Mechanical Waves and Sound

SOUND AND ULTRASOUND IN MEDICINE Prof. Dr. Moustafa. M. Mohamed Vice Dean Faculty of Allied Medical Science Pharos University Alexandria Dr. Yasser Khedr.

Sound Waves Physics Chapter 13 Section 1. I. Production of sound waves Produced by an object vibrating Produced by an object vibrating -ex. Tuning fork.

SOUND WAVES « How can we use sound waves in medicine ? »

How Sounds Are Made What happens when a bell shakes or a drum moves up and down? Vibrations occur – sound is produced when matter vibrates Remember: sound.

Starter Like last lesson, can you guess today’s topic from the hint below? Today’s hint is key words... scan X-ray vibrations image reflect pulse longitudinal.

+ Perceiving Sound. + Before we start! A review of Light.

Hearing Sound. Have you ever felt sound?  Car with really loud music playing (especially with heavy base).

Chapter 13 Sound. Section 13.1 Sound Waves The Production of Sound Waves  Sound is a result of vibrations or oscillations.  How We Hear Video (1:05)

Sound Name: ________________ Class: _________________

Sound Basics Overview What is sound Speed Frequency Range.

What is Sound?.

Sound Waves. Sound is a Longitudinal Wave particles vibrate parallel to the direction of the motion of the wave.

Monday, October 22 nd Entry Task Take the next couple of minutes to study for your 16.1 Quiz Schedule: 16.1 and 16.2 Notes Homework: 16.2 Read/RSG 16.2.

Unit 1 Physics Detailed Study 3.6

11.6 Limitations of our ears p.96 - Human ears cannot hear all sounds in the surroundings. We can only hear sounds within a certain range of frequencies.

 Sound waves carry information to your ears.  Most people hear sounds between 20 hertz and 20,000 hertz.  Sound waves are longitudinal waves— compressions.

How Sound Travels Sounds are carried by vibrating particles. Sounds can travel through: 1.Gases ( air in the room ) 2.Liquids ( water in a swimming pool.

13.1 Sound Waves pp Essential Questions  How do we perceive sound?  What conditions change the way in which we perceive sound?

Sound, Sound Energy and Speed Sound Creating Sound Moving Sound Inquiry Noise Cancelling Headphones The Speed of Sound.

Unit 4 - Sound. Frequency of Sound  how often the particles of the medium vibrate when a wave passes through the medium.  the number of complete back-and-forth.

Sound. Sound Waves Sound is a disturbance that travels through a medium as a longitudinal wave.

SOUND Can You Hear Me Now?. GOAL 5: Students will describe the characteristics of and investigate Wave Motion, Sound, and Light.  Objective 1: Differentiate.

Section 4 Sound and Hearing Properties of Sound Waves Sound waves are longitudinal waves — compressions and rarefactions that travel through a medium.

Lesson.10: Ultrasound scans and Treatment Objectives Describe the features of longitudinal waves. Recall and describe the main medical uses of ultrasound.

Sound and Hearing Properties of Sound Waves, Ultrasound, The Doppler Effect.

Sound and Standing Waves. Basics of Sound Sound waves travel in longitudinal waves A crest of a sound wave is a compression, where the most particles.

Chapter 15 Sound.

Ultrasound D. Crowley, 2008.

Section 1 Section 2Section 3Section 4Chapter 2.

Sound Sound Waves. The Production of Sound Waves Sound waves are caused by vibrations –The vibrating object has regions of air with relatively high density.

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.

Sound and Light Chapter 12. Sound A longitudinal wave that spreads in all directions Speed depends on medium –Solids and liquids = quick movement –Gasses.

Sound Chapter Properties of Sound Sound waves – Longitudinal Waves – Caused by vibrations – Carry energy outward, which hit your ear.

Sound. Characteristics of Sound Intensity of Sound: Decibels The Ear and Its Response; Loudness Interference of Sound Waves; Beats Doppler Effect Topics.

Section 4: The Nature of Sound. Sounds All sounds are caused by something that vibrates. Your vocal cords vibrate in relation to controlled bursts of.

What we will do today: Investigate the range of human hearing. State what is meant by Ultrasound. Give one medical use of ultrasound in medicine. Give.

Sound. The origin of sound All sound are produced by the vibrations of material objects. Our voice results from the vibration of our vocal chords. Sound.

What is sound? It is an external factor (stimulus) that affects the ear causing the sense of hearing. How is the sound produced? Sound is produced due.

PHYSICS – Sound.

 Sounds are longitudinal mechanical waves.  They are created by a disturbance and must travel through a medium, usually air, but sound can travel through.

Sound and Hearing Chapter 17.4 Properties of Sound Waves Sound waves are longitudinal waves. Many behaviors of sound can be explained using a few properties-

Sound What is sound? It is made when an object or material vibrates. A vibration is a fast, backwards and forwards movement that repeats many times.

Sound and LightSection 1 Properties of Sound 〉 What are the characteristics of sound waves? 〉 Sound waves are caused by vibrations and carry energy through.

Chapter 16 Sound. The Production of Sound Waves  Sound is a result of vibrations or oscillations.  Ex: As the prong in the tuning fork swings to the.

What is sound? Sound is a longitudinal wave which travels through the air through a series of compressions and rarefactions.

How are sound waves produced? Why does the speed of sound waves vary in different materials? How do your ears enable you to hear sounds? Sound.

Lecture 44 – Lecture 45 Sound Ozgur Unal

Waves (I) S3 Physics

Sound Waves Unit 9.1.

Sound and Light Chapter 12.

Good if: you can explain what is meant by ultrasound.

Module 4 Waves, atoms & Space.

Peer Mark Wave Equation Practice

New Topic: Sound Friday, 14 September 2018

09/11/2018 Think of as many things that make sound as you can, and for each of these think about what is vibrating.

Chapter 10 Section 2: SOUND.

11.1 Sound travel How does sound travel? Sound is made by vibrations.

Ultrasound D. Crowley, 2008.

Sound Sound Waves.

How is Sound produced? By the end of the lesson you should be able to:

Presentation transcript:

Ultrasound Learning Objectives 1. Describe the hearing range in humans (L5) 2.Explain what ultrasonic sound is (L6) 3.Recognise the uses of ultrasonic sound

Starter

ULTRASOUND Ultrasound is the name we give to sound that is too high pitched for humans to hear. The frequency or number of vibrations each second is so high that our ears will not detect the vibrations. The human ear does not perceive all frequencies equally. We hear sounds best at around 3,000 to 4,000Hz.

WHAT SOUNDS CAN WE HEAR? Humans can hear sounds at frequencies from about 20Hz to 20,000Hz. This is called the AUDIBLE RANGE. Humans don't hear all sounds. For example, we can't hear the sound a dog whistle makes, but dogs can hear that sound. Marine animals can often hear sounds that humans can't hear.

The audible range for adults varies with age The audible range for adults varies with age. As children, we may have an upper limit of nearly 30,000Hz but this decreases with age. ADULT 20-20,000Hz CHILD 20 – 30,000Hz PENSIONER 20-15,000Hz

Hearing range for other animals. Bats can hear up to 120,000 Hz Cats can hear up to 70,000 Hz Dogs can hear up to 50,000 Hz Humans can hear up to 20,000 Hz Some insects can hear up to 15,000 Hz Sound lower than 20 Hz is known as infrasound.

Medicine Common use: Pregnancy scan. Ultrasound is used to scan organs such as the heart, brain or liver without the need for surgery. Ultrasonic waves are used to build up an image of the developing baby in the mother’s womb. This enables the doctor to check the progress of a pregnancy. Kidney stones are broken up without the need for surgery using ultrasound. The high-frequency wave vibrations are directed at the stones which causes them to vibrate and break up. They are then passed painlessly from the body. Common use: Pregnancy scan.

Dentistry Ultrasound is used to remove plaque from teeth. The high frequency wave vibrations cause the plaque to vibrate so much that it breaks up and falls off.

Cleaning A similar effect is used to clean many different types of objects, especially surgical instruments. The objects are immersed in a liquid and ultrasonic waves are directed through it. The high frequency waves create a ‘scrubbing’ action in the fluid and any unwanted material is removed from the objects. Ultrasound is also used to clean delicate machinery without the need to dismantle it.

Cracks Ultrasound reflects off cracks in metals, so can be used to check for faults in aircraft and in underground pipes.

Sound Waves. Learning Objectives Explain what a sound wave is (L4) Recognise the difference between a compression and a rarefaction (L5/6) Understand how a loudspeaker produces sound

Compressions and rarefractions A pulse, or wave, of energy passes down the spring. This is called a push wave. The energy passes through the spring.

Energy Transport. Compression Rarefraction When a wave is passing along a point at any given point, its coils are pushed together compressions and those that are stretched out are called rarefactions.

Sound waves are …………………………… waves. When someone speaks, the air particles vibrate as a longitudinal wave and so ………………………. and ………………….. are formed in the air.