High-intensity focused ultrasound (HIFU) is one treatment for certain types of cancer. During the procedure, a narrow beamof high-intensity ultrasound is focused on the tumor, raising its temperature to nearly 90°C and killing it. A range offrequencies and intensities can be used, but in one treatment a beam of frequency 4.40 MHz produced an intensity of1425.0 W/cm. The energy was delivered in short pulses for a total time of 3.40 s over an area measuring 1.80 mm by5.40 mm. The speed of sound in the soft tissue was 1580 m/s, and the density of that tissue was 1509.0 kg/m?.What was the wavelength A of the ultrasound beam?=mHow much energy Eotal Was delivered to the tissue during the 3.40 s treatment?JEtotal =terms of usecontact ushelpabout usprivacy polícycareersShow AllV VS T.jpegFree-Fall-Phet.docxfree fall.pngV VS T.jpegFIIF10F8F7000* F5F6aロ mHow much energy Etotal Was delivered to the tissue during the 3.40 s treatment?Etotal =JWhat was the maximum displacement A of the molecules in the tissue as the beam passed through?A =mEnter numeric valueprivacy policyterms of usecontact ushelpabout uscareersShow AllV VS T.jpegFree-Fall-Phet.docxfree fall.pngv VS T.jpeg

Given, Temperature T = 90C∘ Frequency f = 4.40 MHz = 4.40 x 106 Hz Intensity I = 1425 W/cm2 = 1425 x…

High-intensity focused ultrasound (HIFU) is one treatment for certain types of cancer. During the procedure, a narrow beam of high-intensity ultrasound is focused on the tumor, raising its temperature to nearly 90°C and killing it. A range of frequencies and intensities can be used, but in one treatment a beam of frequency 4.40 MHz produced an intensity of 1425.0 W/cm. The energy was delivered in short pulses for a total time of 3.40 s over an area measuring 1.80 mm by 5.40 mm. The speed of sound in the soft tissue was 1580 m/s, and the density of that tissue was 1509.0 kg/m?. What was the wavelength à of the ultrasound beam? = m How much energy Eotal Was delivered to the tissue during the 3.40 s treatment? Etotal = terms of use contact us help about us careers privacy policy Show All

High-intensity focused ultrasound (HIFU) is one treatment for certain types of cancer. During the procedure, a narrow beam of high-intensity ultrasound is focused on the tumor, raising its temperature to nearly 90°C and killing it. A range of frequencies and intensities can be used, but in one treatment a beam of frequency 4.40 MHz produced an intensity of 1425.0 W/cm. The energy was delivered in short pulses for a total time of 3.40 s over an area measuring 1.80 mm by 5.40 mm. The speed of sound in the soft tissue was 1580 m/s, and the density of that tissue was 1509.0 kg/m?. What was the wavelength à of the ultrasound beam? = m How much energy Eotal Was delivered to the tissue during the 3.40 s treatment? Etotal = terms of use contact us help about us careers privacy policy Show All

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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High-intensity focused ultrasound (HIFU) is one treatment for certain types of cancer. During the procedure, a narrow beam of high-intensity ultrasound is focused on the tumor, raising its temperature to nearly 90 °C and killing it. A range of frequencies and intensities can be used, but in one treatment a beam of frequency 3.10 MHz produced an intensity of 1425.0 W/cm². The energy was delivered in short pulses for a total time of 2.60 s over an area measuring 1.20 mm by 5.30 mm. The speed of sound in the soft tissue was 1570 m/s, and the density of that tissue was 1492.0 kg/m³. What was the wavelength of the ultrasound beam? How much energy Etotal was delivered to the tissue during the 2.60 s treatment? What was the maximum displacement A of the molecules in the tissue as the beam passed through? λ = Etotal A = = 5.06 X10-4 5.8 ×10¹2 Incorrect 3.15 x10-7 Incorrect m m
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