11.18 The extent of disease transmission can be affected greatly by the viability of infectiousorganisms suspended in the air. Because of the infectious nature of the disease under study,the viability of these organisms must be studied in an airtight chamber. One way to do this is todisperse an aerosol cloud, prepared from a solution containing the organisms,into the chamber.The biological recovery at any particular time is the percentageof the total number of organismssuspended in the aerosol that are viable. The data in the accompanying table are the biologicalrecovery percentages computed from 13 different aerosol clouds. For each of the clouds, recoverypercentages were determinedat different times.a. Plot the data.b. Since there is some curvature, try to linearize the data using the log of thebiologicalrecovery.Cloud Time, x (in minutes) Biological Recovery (%)1 0 70.62 5 52.03 10 33.44 15 22.05 20 18.36 25 15.17 30 13.08 35 10.09 40 9.110 45 8.311 50 7 .912 55 7 .713 60 7 .7 11.18 The extent of disease transmission can be affected greatly by the viability of infectiousorganisms suspended in the air. Because of the infectious nature of the disease under study,the viability of these organisms must be studied in an airtight chamber. One way to do this is todisperse an aerosol cloud, prepared from a solution containing the organisms, into the chamber.The biological recovery at any particular time is the percentage of the total number of organismssuspended in the aerosol that are viable. The data in the accompanying table are the biologicalrecovery percentages computed from 13 different aerosol clouds. For each of the clouds, recoverypercentages were determined at different times.a. Plot the data.b. Since there is some curvature, try to linearize the data using the log of thebiological recovery.CloudTime, r (in minutes)Biological Recovery (%)170.62552.031033.441522.052018.36.2515.173013.083510.09409.110458.311507.912557.713607.7|

a) Plot of the data: Steps to construct scatter plot in Excel: Enter the data for x and Biological…

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MATLAB: An Introduction with Applications

6th Edition

ISBN:9781119256830

Author:Amos Gilat

Publisher:Amos Gilat

Chapter1: Starting With Matlab

Section: Chapter Questions

Problem 1P

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11.18 The extent of disease transmission can be affected greatly by the viability of infectious
organisms suspended in the air. Because of the infectious nature of the disease under study,
the viability of these organisms must be studied in an airtight chamber. One way to do this is to
disperse an aerosol cloud, prepared from a solution containing the organisms,
into the chamber.
The biological recovery at any particular time is the percentage
of the total number of organisms
suspended in the aerosol that are viable. The data in the accompanying table are the biological
recovery percentages computed from 13 different aerosol clouds. For each of the clouds, recovery
percentages were determined
at different times.
a. Plot the data.
b. Since there is some curvature, try to linearize the data using the log of the
biological
recovery.
Cloud Time, x (in minutes) Biological Recovery (%)
1 0 70.6
2 5 52.0
3 10 33.4
4 15 22.0
5 20 18.3
6 25 15.1
7 30 13.0
8 35 10.0
9 40 9.1
10 45 8.3
11 50 7 .9
12 55 7 .7
13 60 7 .7

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