The temperature in Edmonton, over the course of a year, can be approximated using the sinusoidal function t(x) = 16.11sin(0.51x-1.75)+9.14 where T represents the temperature in C and x represents the number of the month, where January 1st is month number 1, February 1st is month number 2, etc. What would the temperature in Edmonton be on August 1st?
The temperature in Edmonton, over the course of a year, can be approximated using the sinusoidal function t(x) = 16.11sin(0.51x-1.75)+9.14 where T represents the temperature in C and x represents the number of the month, where January 1st is month number 1, February 1st is month number 2, etc. What would the temperature in Edmonton be on August 1st?
Chapter5: Exponential And Logarithmic Functions
Section: Chapter Questions
Problem 39CT: The population P (in millions) of Texas from 2001 through 2014 can be approximated by the model...
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Sinusodial Functions
![The temperature in Edmonton, over the course of a year, can be approximated using the
sinusoidal function t(x) = 16.11sin(0.51x-1.75)+9.14 where T represents the temperature
in C and x represents the number of the month, where January 1st is month number 1,
February 1st is month number 2, etc. What would the temperature in Edmonton be on
August 1st?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe18b09ff-abb6-4411-b9bc-0325724e0c56%2F0acab43e-6466-4608-9417-47a782283e02%2F7493vf_processed.png&w=3840&q=75)
Transcribed Image Text:The temperature in Edmonton, over the course of a year, can be approximated using the
sinusoidal function t(x) = 16.11sin(0.51x-1.75)+9.14 where T represents the temperature
in C and x represents the number of the month, where January 1st is month number 1,
February 1st is month number 2, etc. What would the temperature in Edmonton be on
August 1st?
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