water's specific heat is 1 calorie/mL/degree celsius.
if you assume the density is 1 g/mL then we have 50 mL of material going from 100 to 37 degrees C.
So take Mass X Change in Temp X Specific heat and that is your answer.
To change water by one degree takes 80 calorie per gram. This means that the water releases 2800 calories when it shifts from 100 to 99 degrees Celsius.
Q = mc(delta)T
Q = 50 x 1 x (100-37)
Q = 3150 calories
3150 calories 3.15 kcal
No, Celsius is a temperature scale.
25 degrees Celsius.
A temperature of 350 degrees Fahrenheit is equal to a temperature of 176.67 degrees Celsius.
A temperature of 91 degrees Fahrenheit is equal to a temperature of 32.78 degrees Celsius.
A temperature of 39.9 degrees Celsius is equal to a temperature of 103.82 degrees Fahrenheit.
true
Alcohol condenses at 173 degrees Fahrenheit or 78.9 degree Celsius. Liquors such as brandy and whiskey are made through condensing alcohol.
if im not mistaken it freezes.
540 kcal
Water vapours that condenses on a surface having temperature below 0 0C are converted into ice which is often known frost.
it freezes. this is called snow :) (just kidding)
To calculate Fahrenheit to Celsius, you take the temperature in Fahrenheit and multiply it by 0.8. Using the answer of that number, subtract 32 from it. That is your temperature in Celsius. To change that temperature back to Fahrenheit, you would add 32 to your Celsius temperature. After getting that answer, you divide it by 0.8 and Voislá, you're back at your temperature in Fahrenheit.
at standard pressure, the vapor condenses to liquid water at 100 C
You add +273.15. For example, +20°C = +293.15 K.
at standard pressure, the vapor condenses to liquid water at 100 C
at standard pressure, the vapor condenses to liquid water at 100 C
at standard pressure, the vapor condenses to liquid water at 100 C