Analysis 3: Based on the design of the antennas, the Standard Absorption Rate (SAR) of RF power by the patient tissue is expected to be as follows: SAR(t) = v2t + e0.1t+2 where, t is time in seconds....


Analysis 3: Based on the design of the antennas, the Standard Absorption Rate (SAR) of RF power by the<br>patient tissue is expected to be as follows:<br>SAR(t) = v2t + e0.1t+2 where, t is time in seconds.<br>1. Formulate a mathematical model for the dosage of exposure, D(t). Hint: the dosage is the area<br>under the SAR curve.<br>2. Plot the SAR function for the first 80 seconds.<br>

Extracted text: Analysis 3: Based on the design of the antennas, the Standard Absorption Rate (SAR) of RF power by the patient tissue is expected to be as follows: SAR(t) = v2t + e0.1t+2 where, t is time in seconds. 1. Formulate a mathematical model for the dosage of exposure, D(t). Hint: the dosage is the area under the SAR curve. 2. Plot the SAR function for the first 80 seconds.

Jun 03, 2022
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