Ultrasound, Ultrasonic Waves

Ultrasound, Waves Ultrasonic Waves are sound waves of extremely high frequency (over 20,000 Hz) indistinguishable by the human ear. Ultrasound is used to study various structures of the body, which is performed in a similar way to x-ray examination, but without exposing the person to the potentially harmful effects of x-ray radiation; in addition, with the help of ultrasound, you can see structures that are indistinguishable with the X-ray examination method (see Ultrasonography). The vibrational effect of ultrasonic waves can be used to treat various diseases of deep tissues and to crush stones in the kidneys and other structures. Ultrasonic instruments are used in dentistry to remove tartar, as well as to remove tooth fragments from the root canal during root canal treatment of dental pulp. See also Sonography.

Ultrasound and ultrasonic waves are sound waves indistinguishable to the human ear that have an extremely high frequency (more than 20 thousand hertz).

Ultrasound is used to study various structures of the body and works similar to X-rays, but without the potential harmful effects of X-rays. In addition, ultrasound can show structures that are not visible on x-rays.

The vibrational properties of ultrasonic waves can be used to treat deep tissue diseases, as well as crush stones in various structures, such as the kidneys.

In dentistry, ultrasound is used to remove tartar and tooth debris in root canals.

Echography is an ultrasound examination method that is used to visualize internal organs and tissues. This method is based on the reflection of ultrasound waves from tissues and organs, which allows one to obtain images and information about the condition of the organs.

Thus, ultrasound and ultrasonic waves play an important role in medicine and other fields where accurate and safe examination of the internal structures and tissues of the body is required.

Ultrasound is a term used to describe high frequency acoustic waves that are inaudible to the human ear. These waves have a frequency above 20 kHz, making them unique among other types of sound waves. Such a wide range of applications of ultrasound is explained by the fact that it allows one to obtain important information about the tissues and organs of the human body without harmful effects on them.

Ultrasound has broad capabilities for examining various human tissues, allowing them to be diagnosed without the use of X-ray radiation. The ultrasound method is an artificial diagnostic method based on the use of ultra-high-frequency (ultrasonic pulses) sound waves (2,048,203 Hz) and the superposition of signals reflected from organs or environments, followed by decoding of images by the organs of vision on a screen or monitor. Superposition is the ability of sound to be simultaneously decomposed into its component parts and perceived by all of them at the same time. First