part 2 please You are working as an Engineering Technician at GEMR, which specializes in designing and developingmedical equipment such as Magnetic Resonance Imaging (MRI) systems, X-ray systems, and RadioFrequency (RF) antennas coils. You will be working with the MRI and RF coils team to design a threeantenna RF coil, as shown in Figure 1(b), to be used in conjunction with an MR machine. The RF coil willbe placed on the patient head during the MR scan, see Figure 1(a). The RF coil will be exposed to an RFpulse that is in conjunction with the magnetic field of the MR scanner, Figure 1(a), receives signals fromthe brain as current flowing in the antennas. These currents are then converted into an image of thebrain as seen in Figure 1(c). Your responsibility is to carry out mathematical analysis of the RF coil topredict the performance of the antennas before they can be tested on human beings.RF PuleAntenna Aetenna 2 Aatensa 3(a)Figare 1: (a) MR machine, (b) throe loop antenmax, and (0) brain MR image Analysis 3: Based on the design of the antennas, the Standard Absorption Rate (SAR) of RF power by thepatient tissue is expected to be as follows:SAR(t) = v2t + e01t+2 where, t is time in seconds.1. Formulate a mathematical model for the dosage of exposure, D(t). Hint: the dosage is the areaunder the SAR curve.2. Plot the dosage function for the first 80 seconds.3. Manually estimate the total dosage from 40 to 60 seconds using the Mid-ordinate Rule,Trapezoidal Rule, and Simpson's Rule using 5 intervals, and again using 10 intervals. Show detailsof your steps.

Use a graphing utility to plot the dosage function.

Answered: Plot the dosage function for the first…

Math

Advanced Math

Plot the dosage function for the first 80 seconds.

Trigonometry (MindTap Course List)

10th Edition

ISBN:9781337278461

Author:Ron Larson

Publisher:Ron Larson

Chapter6: Topics In Analytic Geometry

Section6.4: Hyperbolas

Problem 5ECP: Repeat Example 5 when microphone A receives the sound 4 seconds before microphone B.

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