The temperature variation at each Now you wll add variation to the temperatures, assuming that th...
the temperature variation at each Now you wll add variation to the temperatures, assuming that that quarter hour follows a normal distribution. 4. Create a normal distribution (Gaussian distribution) of temperature variation with a mean of o° and a standard deviation of 2e for each temperature over the 24.houc period (You will need 97 values). call this array R. See Section 3.6 for help. s. create a new array called TempPlus that includes this random variation. The new equati TempPlus--16 cos(a(t-4))+80 + R Or TempPlus Termp + R 6. Plot this data on a new x-y plot. Don't worry about labels. Recall that the MATLAB function for plotting is plot(w), print your graph. How do the two graphs compare?
the temperature variation at each Now you wll add variation to the temperatures, assuming that that quarter hour follows a normal distribution. 4. Create a normal distribution (Gaussian distribution) of temperature variation with a mean of o° and a standard deviation of 2e for each temperature over the 24.houc period (You will need 97 values). call this array R. See Section 3.6 for help. s. create a new array called TempPlus that includes this random variation. The new equati TempPlus--16 cos(a(t-4))+80 + R Or TempPlus Termp + R 6. Plot this data on a new x-y plot. Don't worry about labels. Recall that the MATLAB function for plotting is plot(w), print your graph. How do the two graphs compare?