You're looking for the "delta T" for this equation.... Q = cfm * 1.08 * dT and 10000 = 100 * 1.08 * dT ==> dT = 92.59 the final temperature will be 32 + 92.59 = 124.59 degF
1600
54 degrees celcius
THE ANSWER IS 62.8 DEGREES.....
When allowed to stand for long enough, the final temperature will reach room temperature.
THE ANSWER IS 62.8 DEGREES.....
I'll assume here that by "70 temperature" you mean "70 degrees Celsius". Basically, you have to calculate the average temperature of all of the water in the mixture, which will be the final temperature once it's well stirred. The 200 grams of water at 10 degrees represent 2/3 of the total amount of water (300 grams), so thus, multiply 10 by 2/3 to determine their contribution to the final temperature. You will get 20/3. The 100 grams of water at 70 degrees represent 1/3 of the total amount of water, so multiply 70 by 1/3 to determine their contribution to the final temperature. You will get 70/3. When you add together the two temperatures you get 90/3, which is equal to 30. Therefore, the final temperature is 30 degrees Celsius.
If your starting temperature is -12 and you want to lower the temperature by 36 degrees then your final temperature is -48
change = final - initial -13 - 1 = -14 It has fallen 14 degrees.
The temperature would be that of water's boilng point od 100 degrees
The minimal temperature for the final rinse in a heat dishwasher should be 180 degrees. After this is finished, the heat dries the dishes.
40 degree
The metal with the lowest thermal capacity.