The temperature of an object is how cold or hot it is.
The final temperature is 12.3 degrees Celsius
The given parameters are:
[tex]\Delta H_{vap} = 45.4\ kJ/mol[/tex] --- the heat of vaporization
[tex]C_p = 0.903J/g^oC[/tex] --- the specific heat of Aluminum
[tex]m = 1.12g[/tex] --- the mass of alcohol
[tex]M = 60.1g/mol[/tex] -- the molecular mass of alcohol
Start by calculating the moles of alcohol using:
[tex]Moles = \frac{Mass}{Molecular\ Weight}[/tex]
So, we have:
[tex]n = \frac{1.12g}{60.1g/mol}[/tex]
[tex]n= 0.0186\ mol[/tex]
Next, calculate the amount of heat absorbed by the alcohol using:
[tex]n * \Delta H_{vap} = -m_{alcohol}* C_p * \Delta T[/tex]
The mass of alcohol is 73 grams. So, we have:
[tex]0.0186 * 45.4 = -73* 0.903 * \Delta T[/tex]
Evaluate the products
[tex]0.84 = -65.92* \Delta T[/tex]
Divide both sides by -65.92
[tex]\Delta T = -0.0127[/tex]
Express as degrees Celsius
[tex]\Delta T = -12.7[/tex]
Also, we have:
[tex]\Delta T = T_i - T_f[/tex] --- the difference in the initial and the final temperatures.
This gives
[tex]-12.7 = T_f - 25[/tex]
Collect like terms
[tex]T_f = 25 - 12.7[/tex]
[tex]T_f = 12.3[/tex]
Hence, the final temperature is 12.3 degrees Celsius
Read more about specific heat at:
https://brainly.com/question/13709049
