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Explain how ultrasonic waves can be produced in the laboratory?
Ultrasonic waves can be produced in the laboratory using a device called an ultrasonic transducer. The transducer converts electrical energy into mechanical vibrations, which generate the ultrasonic waves. These waves can be used for various applications, including medical imaging, cleaning, and material testing.
Why is diffraction of ultrasonic waves important?
Diffraction of ultrasonic waves is important because it helps in focusing and steering the waves towards a specific target, enhancing their resolution and precision in applications like medical imaging, non-destructive testing, and industrial processes. It also allows for the precise manipulation and control of ultrasonic waves in various technological applications.
What is the difference between ultrasonic and subsonic waves?
Ultrasonic waves have frequencies above the range of human hearing (20 kHz), while subsonic waves have frequencies below this range. Ultrasonic waves are used in applications like medical imaging and cleaning, while subsonic waves are commonly found in natural phenomena like seismic waves.
What are some examples of ultrasonic sound and how is it used in various applications?
Ultrasonic sound examples include medical imaging, cleaning, and distance measurement. In medical imaging, ultrasonic waves are used to create images of internal organs. In cleaning, ultrasonic waves are used to remove dirt and grime from objects. In distance measurement, ultrasonic waves are used in sensors to determine the distance between objects.
What is the maximum frequency of ultrasonic waves?
the minimum frequency of ultrasonic waves used in medical applications are (1-10)mhz. It may also extend to 20 MHz in foetus ultrasound.
What has the author L D Rozenberg written?
L. D. Rozenberg has written: 'High-intensity ultrasonic fields' -- subject(s): Industrial applications, Ultrasonic waves 'Rasskaz o neslyshimom zvuke' -- subject(s): Industrial applications, Ultrasonic waves 'Sources of high-intensity ultrasound' -- subject(s): Ultrasonic waves
Explain how ultrasonic waves can be produced in the laboratory?
Ultrasonic waves can be produced in the laboratory using a device called an ultrasonic transducer. The transducer converts electrical energy into mechanical vibrations, which generate the ultrasonic waves. These waves can be used for various applications, including medical imaging, cleaning, and material testing.
Why is diffraction of ultrasonic waves important?
Diffraction of ultrasonic waves is important because it helps in focusing and steering the waves towards a specific target, enhancing their resolution and precision in applications like medical imaging, non-destructive testing, and industrial processes. It also allows for the precise manipulation and control of ultrasonic waves in various technological applications.
What is the difference between ultrasonic and subsonic waves?
Ultrasonic waves have frequencies above the range of human hearing (20 kHz), while subsonic waves have frequencies below this range. Ultrasonic waves are used in applications like medical imaging and cleaning, while subsonic waves are commonly found in natural phenomena like seismic waves.
What are some examples of ultrasonic sound and how is it used in various applications?
Ultrasonic sound examples include medical imaging, cleaning, and distance measurement. In medical imaging, ultrasonic waves are used to create images of internal organs. In cleaning, ultrasonic waves are used to remove dirt and grime from objects. In distance measurement, ultrasonic waves are used in sensors to determine the distance between objects.
What are the industrial and medical applications of ultrasonic?
industrial applications ultrasonic cleaning,ultrasonic cutting,ultrasonic machining,metal forming,metal welding, medical applications
What is the maximum frequency of ultrasonic waves?
the minimum frequency of ultrasonic waves used in medical applications are (1-10)mhz. It may also extend to 20 MHz in foetus ultrasound.
Which animal can hear ultrasonic waves?
whale can hear ultrasonic sound waves.
What are the different types of ultrasonic waves?
There are mainly two types of ultrasonic waves: longitudinal waves and shear waves. Longitudinal waves produce compressions and rarefactions in the medium along the direction of wave propagation, while shear waves produce perpendicular oscillations to the direction of wave propagation. Longitudinal waves are commonly used in medical imaging applications like ultrasound scans, while shear waves are used in non-destructive testing of materials to detect internal defects.
What are the uses of ultrasonic sounds?
industrial applications of ultrasonic waves: 1. ultrasonic welding 2. ultrasonic cleaning. 3. ultrasonic drilling. 4. ultrasonic soldering. +++ 5. Flaw detection in metals etc. And many others if you stretch the term "industrial to include, say, medical!
Are ultrasonic waves called as electromagnetic wave?
No ultrasonic waves are not a form of electromagnetic wave. Ultrasonic waves are nothing more than high frequency sound waves. They can be made with a suitable speaker or transducer.
What has the author Michael T Kiernan written?
Michael T. Kiernan has written: 'A physical model for the acousto-ultrasonic method' -- subject(s): Composite materials, Ultrasonic waves, Industrial applications
