Which formula represents the temperature increase when using 3 MHz ultrasound?

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Multiple Choice

Which formula represents the temperature increase when using 3 MHz ultrasound?

The main idea is that the temperature rise from therapeutic ultrasound is proportional to how long you apply it and how strong the beam is, with a frequency-specific factor that adjusts the rate of heating. For 3 MHz, energy is absorbed more readily in tissue, so the heating coefficient is higher than at lower frequencies. In clinical exam materials, the commonly used coefficient for 3 MHz is 0.6, giving the formula Temp Increase = 0.6 × Intensity × Time. This means, with intensity in W/cm^2 and time in minutes, multiply by 0.6 to estimate how many degrees Celsius the tissue temperature will rise. The other coefficients (0.8, 1.2, 0.4) would reflect different frequencies or models, not 3 MHz, so they don’t match the 3 MHz heating rate.

Which formula represents the temperature increase when using 3 MHz ultrasound?

Prepare for the Electrotherapy US Test with targeted flashcards and comprehensive questions. Grasp concepts with detailed hints and explanations to boost your exam readiness!

Which formula represents the temperature increase when using 3 MHz ultrasound?

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