Basic SEIR 4. What is the equation that describes Ro for this model? 5. Compare the dynamics of the SIR and SEIR models by running both with the same transmission rate, 3, recovery rate, y and population size. Then, vary the parameter o. How does the introduction of the E class and the length of the incubation period change the resulting epidemic? Consider the timing and magnitude of peak caseload, as well as the proportion of the population that is infected by the end of the epidemic. 6. Run the model with values: N = 500, 3= 0.02, o = 0.2 and y = 0.1. How many people have become, or are currently, sick by day 20? On what day does the epidemic peak?
Basic SEIR 4. What is the equation that describes Ro for this model? 5. Compare the dynamics of the SIR and SEIR models by running both with the same transmission rate, 3, recovery rate, y and population size. Then, vary the parameter o. How does the introduction of the E class and the length of the incubation period change the resulting epidemic? Consider the timing and magnitude of peak caseload, as well as the proportion of the population that is infected by the end of the epidemic. 6. Run the model with values: N = 500, 3= 0.02, o = 0.2 and y = 0.1. How many people have become, or are currently, sick by day 20? On what day does the epidemic peak?
Phlebotomy Essentials
6th Edition
ISBN:9781451194524
Author:Ruth McCall, Cathee M. Tankersley MT(ASCP)
Publisher:Ruth McCall, Cathee M. Tankersley MT(ASCP)
Chapter1: Phlebotomy: Past And Present And The Healthcare Setting
Section: Chapter Questions
Problem 1SRQ
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Transcribed Image Text:Basic SEIR
4.
What is the equation that describes Ro for this model?
5.
Compare the dynamics of the SIR and SEIR models by running both with the same transmission
rate, 3, recovery rate, y and population size. Then, vary the parameter o. How does the introduction of
the E class and the length of the incubation period change the resulting epidemic? Consider the timing and
magnitude of peak caseload, as well as the proportion of the population that is infected by the end of the
epidemic.
6.
Run the model with values: N = 500, 8 = 0.02, o = 0.2 and y = 0.1. How many people have
become, or are currently, sick by day 20? On what day does the epidemic peak?
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