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Nov 24, 2024
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DMS 105W - Ultrasound Physics and Instrumentation ICredits: 2 Instructional Contact Hours: 2
Introduces the basic acoustic physics including a history of instrumentation, ultrasonic propagation principles, transducer parameters, and basic equipment types.
Prerequisite(s): Must be accepted into the DMS program or have consent of instructor. Corequisite(s): DMS 100 , DMS 107 , DMS 107L , DMS 108W Lecture Hours: 30 Lab Hours: 0 Meets MTA Requirement: None Pass/NoCredit: No
Outcomes and Objectives
- Understand ultrasonic propagation and how they relate to ultrasonic imaging.
- Know the definition of sound and understand the relation of sound waves to ultrasound imaging.
- Know the definition and units of a period along with the typical values of ultrasound period in clinical diagnostic imaging.
- Know the definitions, units, and formula for frequency and the typical value of ultrasound frequency in clinical imaging.
- Identify the three parameters that relate to the size of a sound wave.
- Know the definition and units of amplitude.
- Describe how power relates to the strength of the sound wave and know the units for power.
- Differentiate how power is related to amplitude.
- Know the definition and units of intensity and the typical values of ultrasound intensity in clinical imaging.
- Identify the formula and units for wavelength.
- Differentiate how propagation speed relates to the medium through which sound travels.
- State the average speed of sound in biologic "soft tissue".
- Define a pulse of ultrasound and the 5 descriptors of pulsed ultrasound.
- Know the definition and units of pulse duration along with typical ranges in clinical imaging.
- Describe pulse repetition period and how it relates to imaging depth.
- Know the definition and units of pulse repetition frequency and the range in clinical imaging.
- Identify the formula for Duty factor and the range for clinical imaging.
- Correlate spatial pulse length to wavelength, frequency, cycles, and pulse.
- Demonstrate an understanding of ultrasound intensities and how they relate to attenuation of traveling sound.
- Understand the definition of intensity and know the units it is expressed in.
- Describe the four ways to measure intensity.
- Identify the formula for Beam Uniformity Coefficient and how it relates to intensity.
- Demonstrate how to convert from one intensity to another.
- Explain what the unit Decibel is used to describe and know the difference between negative and positive decibels.
- Know the definition of attenuation and how it relates to the sound wave.
- In the clinical setting, determine what frequency transducer to use in relation to the amount of attenuation.
- Identify the three processes that attenuation results from.
- Explain Rayleigh scattering.
- Calculate the Attenuation Coefficient for a given set of parameters.
- State the formula for Half-value Layer thickness.
- Know the definition and units of impedance.
- Demonstrate an understanding of ultrasonic beam transmission.
- Know the relationship between intensity and transmission in clinical imaging.
- State the definition of Intensity Reflection Coefficient and Intensity Transmission Coefficient.
- Explain normal incidence and its relation to reflection and transmission.
- Determine how refraction is associated with transmission.
- Define Snell's law.
- Discuss the Range equation and how an ultrasound imaging system determines the depth of a reflecting surface.
- Understand what a transducer is, and what a transducer does in the process of clinical imaging.
- Name the components of a transducer.
- Identify the formula for the operating frequency of a transducer.
- Explain how bandwidth related to the frequency of a transducer.
- Demonstrate an understanding of sound beams and their effect on resolution.
- Diagram the anatomy of a sound beam.
- Understand Huygen’s principle.
- Explain beam characteristics in relation to crystal attributes.
- Describe the four methods of focusing.
- List factors that affect resolution.
- Compare longitudinal and lateral resolution.
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