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The problem is where to start, I can do a exponential fitting or linear to the Log but it seems that this is not a pure exponential growth unless you take May as the baseline. Perhaps is a couple of days we have some more points for an acurate fitting. I hope the growth will not become exponental
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Since the number of cases should follow an exponential growth pattern, what you want to do is to take the log of the number of new cases and get a set of data points (time, log(new cases)) then fit a line to those points. The slope of that line determines the exponential growth rate. To plot - you
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article. Your plot values are too low. The last values should show numbers in excess of 20 new cases per day. Something is wrong in the way you're doing your calculations. --
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probably want to show individual data points with markers and graph the exponential of the fitted line (if I'm making any sense.) --
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and the outbreak stops. BTW, thanks for the comments, Ill do the exponential for the nuw CDC update and see how it looks. --
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The values plotted in the 'new cases per day' graph don't match the that's in the tables on the
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40:See response to your comment on my talk page.
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23:2014 West Africa Ebola outbreak
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17:About Ebola 2014 Graph
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