The dew point temperature Ta and the relative humidity RH can be
Chapter 7, Problem 31(choose chapter or problem)
The dew point temperature Ta and the relative humidity RH can be calculated(approximately) from the dry-bulb T and wet-bulb Tw temperatures by(http:/ /www.wikipedia.org):e8 = 6.112exp ( 17.67T )T+ 243_5 ( 17.67Tw ew = 6.112exp )Tw + 243.5e = ew-Psta(T-Tw)0.00066 (1+0.00115Tw)RH = 100. T = 243.5 ln(e/6.112)e8 d 17.67-ln(e/6.112)where the temperatures are in degrees Celsius, RH is in %, and Psta is thebarometric pressure in units of millibars.Write a user-defmed MATLAB function that calculates the dew pointtemperature and relative humidity for given dry-bulb and wet-bulb temperaturesin degrees Fahrenheit ( F) and barometric pressure in inches of mercury(inHg). For the function name and arguments, use [Td1 RH] = DewptRhum(T I Tw I BP), where the input arguments T I Tw I BP are dry-bulb andwet-bulb temperatures in oF and BP is the barometric pressure in inHg,respectively. The output arguments Td 1 RH are the dew point temperature in o F and the relative humidity in %. The values of the output arguments shouldbe rounded to the nearest tenth. Use anonymous function or sub functionsinside DewptRhum to convert units.Use the user-defined function DewptRhum for calculating the dew pointtemperature and relative humidity for the following cases:(a) T = 78 F, Tw = 66 F, Psta = 29.09 inHg(b) T = 97 o p, Tw = 88 op, Psta = 30. 12 mbar
Unfortunately, we don't have that question answered yet. But you can get it answered in just 5 hours by Logging in or Becoming a subscriber.
Becoming a subscriber
Or look for another answer