2. • COMPUTER = Utilize software – to read info
from sensor
• DATA LOGGER = Instrument – record
measurement – time
• Compact – battery-powered – internal (microprocessor,
data storage, sensor)
• SENSOR = Convert (Physical Quantity TO
Electrical Signal)
• Type: light, temperature, sound, pH, Humidity
3. • ATTENUATION OF ULTRASOUND IN SOLID
STATE MATERIALS
• How the damping of ultrasound in solid state
materials can be determined?
• The damping of ultrasound in solids shall be determined for
3 different frequencies in reflection as well as transmission
and be compared with values from the literature.
• Sound wave running through a medium loses energy at
different process (scattering, adsorption, reflection)
• The intensity of the wave obeys the attenuation law
𝐼 = 𝐼˳𝑒−𝜇𝓍
4. • Objective:
• To study the attenuation of ultrasound in solid state
materials.
• Apparatus/Materials:
• Ultrasonic echoscope GAMPT-Scan (UEGS)
• 2X ultrasonic probe 1 MHz
• 2X ultrasonic probe 2 MHz
• 2X ultrasonic probe 4 MHz
• Ultrasonic test cylinder set
• Ultrasonic gel
• Caliper/probe holder
5. 1) Set up the ultrasonic echoscope GAMPT-Scan by adjusting the
settings, to detect back wall echo and transmission pulse. Set the
software to HF+ Amp representation.
2) Measure all length of the cylinder with caliper.
3) Connect the UEGS to the PC or laptop.
4) Insert the probes into the probe holders and connect the two
probes of 1MHz frequency to the probe connector and switch is set
to the ‘Trans’.
5) Insert the cylinder into the holder block start with shortest one.
6) Connect the probes to a cylinder with the aid of a drop of ultrasonic
gel.
7) Set the gain and transmission values so that the signals for the
shortest cylinder are not overdriven but are still as high as possible.
8) Make sure the gain settings are always identical in order to be able
to compare the various amplitude measurements.
9) After the data is recorded, clean the cylinder and both of the probes
10) Repeat the experiment using another cylinder.
11) Repeat the experiment using 2 MHz and 4 MHz probes.
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13. 1. How is an ultrasound performed?
2. Is ultrasound radiation?
3. The lowest rate of ultrasound absorption
occurs in?
A. Fat
B. Air
C. Bone
D. Lung
14. 1. The traditional ultrasound procedure involves
placing gel on abdomen to work as a conductor
for the sound waves. A transducer used to
produce sound waves into the uterus. The
sound waves bounce off bones and tissue
returning back to the transducer to generate
black and white image.
2. No. Ultrasound uses sound wave.
3. Fat. Because air, bone and lung are high
absorbers.
16. • Diagnostic Ultrasound
• High frequency sound waves emitted from sound source
(transducer)
• Transducer placed on patient’s body
• Sound waves echo off interfaces of internal structures
and return to transducer
• Information is processed and displayed on a monitor
based on time and intensity of returning echo
• Special term used on ultrasound reports Echogenic,
Hyperechoic, Hypoechoic, Anechoic
17. • Diagnostic Ultrasound
Interfaces are the signal sources
Major application:
Gall bladder evaluation
Fluid collections
Differentiation of cysts from solid
Fetal evaluation
Solid organ evaluation, heart, liver pancreas, kidney
18.
19. • Used in teaching and learning and
also help student to conduct
experiment by using data logger
device.
• Improve critical thinking when
answering tough question by
apply the concept.
