a sound wave transmitted at a frequency greater than 20,000 per second, or beyond the normal hearing range of humans. The specific wavelength is equal to the velocity divided by the frequency. this wave is generated from tranducers, tranducers converts the electrical energy into mechanical energy(wave), i.e ultrasonic wave.
supersonic waves are those wave whose velocity are greater than the sound wave. Supersonic waves are generated by high explosives.
Ultrasonic waves are sound waves with frequencies above the range of human hearing (20 kHz), while supersonic waves are pressure waves with speeds higher than the speed of sound in a medium. Ultrasonic waves are used in medical imaging and industrial applications, while supersonic waves are associated with phenomena like shock waves and sonic booms.
Ultrasonic waves are sound waves with frequencies higher than the upper limit of human hearing, typically above 20 kHz. Supersonic waves refer to any wave that travels faster than the speed of sound in a medium. While ultrasonic waves are specific to frequency, supersonic waves refer to any wave exceeding the speed of sound.
Bats produce ultrasonic sound waves to sense obstacles in their environment. These waves bounce back, allowing bats to navigate and locate objects in the dark.
No, ultrasonic waves will have difficulty passing through a 1cm thick iron plate due to the high density and thickness of the material. Iron is known to be a good reflector and attenuator of ultrasonic waves, making it an obstruction to their passage.
No, bats produce high-frequency ultrasound calls, not supersonic sound waves. These calls are used for echolocation to navigate and hunt for insects in the dark.
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.
Ultrasonic waves are sound waves with frequencies higher than the upper limit of human hearing, typically above 20 kHz. Supersonic waves refer to any wave that travels faster than the speed of sound in a medium. While ultrasonic waves are specific to frequency, supersonic waves refer to any wave exceeding the speed of sound.
Bats produce ultrasonic sound waves to sense obstacles in their environment. These waves bounce back, allowing bats to navigate and locate objects in the dark.
No, ultrasonic waves will have difficulty passing through a 1cm thick iron plate due to the high density and thickness of the material. Iron is known to be a good reflector and attenuator of ultrasonic waves, making it an obstruction to their passage.
No, bats produce high-frequency ultrasound calls, not supersonic sound waves. These calls are used for echolocation to navigate and hunt for insects in the dark.
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.
Supersonic waves are waves that can travel faster than normal sound waves.
Ultrasonic waves have a frequency range above the audible limit of human hearing, typically between 20 kHz and 100 kHz.
whale can hear ultrasonic sound waves.
Infrasonic refers to sound waves below the frequency range of human hearing (below 20 Hz), while ultrasonic refers to sound waves above the frequency range of human hearing (above 20,000 Hz). Infrasonic waves are often produced by natural phenomena like earthquakes, while ultrasonic waves are commonly used in medical imaging and pest control.
Supersonic waves are used in supersonic flights. They are also used in body scanning and used to detect faults in metal.
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.
The standard velocity of ultrasonic waves in benzene is around 1220 m/s. The wavelength of ultrasonic waves in benzene can vary depending on the frequency of the waves.