Outside temperature over a day can be modeled as a sinusoidal function. Suppose you know the...

Q.1 Outside temperature over a day can be modeled as a sinusoidal function. Suppose you know...

Q.1 Outside temperature over a day can be modeled as a sinusoidal function. Suppose you know the high temperature of 83 degrees occurs at 6 PM and the average temperature for the day is 65 degrees. Find the temperature, to the nearest degree, at 10 AM. (Answer: degrees) Q.2 Outside temperature over a day can be modeled as a sinusoidal function. Suppose you know the temperature varies between 60 and 90 degrees during the day and the average daily temperature...

Outside temperature over a day can be modeled as a sinusoidal function. Suppose you know the...

Outside temperature over a day can be modeled as a sinusoidal function. Suppose you know the high temperature of 72 degrees occurs at 5 PM and the average temperature for the day is 65 degrees. Find the temperature, to the nearest degree, at 6 AM.

Outside temperature over a day can be modeled as a sinusoidal function. Suppose you know the...

Outside temperature over a day can be modeled as a sinusoidal function. Suppose you know the high temperature of 57 degrees occurs at 3 PM and the average temperature for the day is 50 degrees. Find the temperature, to the nearest degree, at 7 AM.    degrees

Outside temperature over a day can be modeled as a sinusoidal function. Suppose you know the...

Outside temperature over a day can be modeled as a sinusoidal function. Suppose you know the high temperature of 100 degrees occurs at 4 PM and the average temperature for the day is 80 degrees. Find the temperature, to the nearest degree, at 7 AM.

Outside temperature over a day can be modelled as a sinusoidal function. Suppose you know the...

Outside temperature over a day can be modelled as a sinusoidal function. Suppose you know the high temperature for the day is 80 degrees and the low temperature of 50 degrees occurs at 4 AM. Assuming t is the number of hours since midnight, find an equation for the temperature, D, in terms of t. D(t)=

Outside temperature over a day can be modelled as a sinusoidal function. Suppose you know the...

Outside temperature over a day can be modelled as a sinusoidal function. Suppose you know the high temperature for the day is 102 degrees and the low temperature of 68 degrees occurs at 3 AM. Assuming t is the number of hours since midnight, find an equation for the temperature, D, in terms of t. D(t)D(t) =

part a.) Outside temperature over the course of a day can be modeled as a sinusoidal...

part a.) Outside temperature over the course of a day can be modeled as a sinusoidal function. If the low temperature for the day is 42°F and the high temperature is 86°F, calculate the amplitude of the model function. part b.) Outside temperature over the course of a day can be modeled as a sinusoidal function. If the low temperature for the day is 42°F and the high temperature is 86°F, what is the midline of the model function?

1.Find a possible formula for the trigonometric function whose values are in the following table. x...

1.Find a possible formula for the trigonometric function whose values are in the following table. x 0 2 4 6 8 10 12 y -2 -5 -2 1 -2 -5 -2 y= 2. A population of rabbits oscillates 21 above and below an average of 103 during the year, hitting the lowest value in January (t = 0). Find an equation for the population, P, in terms of the months since January, t. P(t) = What if the lowest value...

In a certain city the temperature (in °F) t hours after 9 AM was modeled by...

In a certain city the temperature (in °F) t hours after 9 AM was modeled by the function T(t) = 40 + 11 sin πt 12 . Find the average temperature Tave during the period from 9 AM to 9 PM. (Round your answer to the nearest whole number.).

A business manager wanted to know if there was a relationship between daily temperature measured in...

A business manager wanted to know if there was a relationship between daily temperature measured in degrees Fahrenheit and number of employees who called-in sick each day. He collected the following data over 10 days: Daily Temperature: 64 60 67 63 60 64 72 66 60 69 # Called-in Sick: 33 32 30 37 34 28 31 27 31 26 1. A. Obtain the mode, median, and mean for Daily Temperature only. B. Obtain the range for Daily temperature. C....