Description
The Ultrasonic Echoscope is an instrumental tool in making ready scholars for a career in medical physics the usage of the rules of echography (aka sonography or ultrasound). Ultrasonic experiments may also be conducted in mirrored image mode, in keeping with the heart beat echo principle, or in via transmission mode. Experiments involving the ultrasonic echoscope may also be performed with 1 megahertz, 2 megahertz or 4megahertz transducers. Ultrasonic transducer now not included in scope of delivery. Propagation of longitudinal and transverse waves to research ultrasound in solids. Figuring out velocity of longitudinal and transverse ultrasonic waves in forged bodies. Determination of shear modulus, modulus of elasticity and Poisson number. Attenuation of sound in forged bodies and liquids. Frequency dependence of sound attenuation. Time dependent gain. Frequency dependence of answer. Recording brightness pictures. Recording ultrasonic echoes from moving boundaries (time-motion mode). Measurement of anomalies. Frequency vary: 1-five megahertz. Transmission signal: Dirac pulse (< 1 microsecond, 10 volt to 300 volt). Transmission power: zero-30 decibel, in 10 decibel steps. Gain: zero-35 decibel, in 5 decibel steps. TGC: Ceaselessly adjustable threshold worth, get started worth, upward push time and gain time, most gain of 30 decibel. Connections: TGC signal, trigger, low frequency signal, top frequency signal by way of a BNC jack in every case. PC connection: USB. Scanning rate: 10 megahertz per channel. Power consumption: 20 volt-ampere approximately. Mains voltage: ninety-230 volt, 50/60 hertz. Inbuilt transmission and receiving unit Time Gain Keep an eye on (TGC) Integrated analogue digital converter and microprocessor USB laptop interface Automatic frequency recognition of transducer [amz_corss_sell asin="B005M02UR4"]
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