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When allowed to stand for long enough, the final temperature will reach room temperature.
When hot metal is added into the water then the metal looses its energy into the water and this heat is gained by the water, so the temperature gets increases when hot metal added into it i.e final temperature is greater than initial temperature of water.
If one were to pour a liter of water at 40 degrees C into a liter of water at 20 degrees C, the final temperature of the two liters of water becomes 30 degrees C. This is because the free energy capacity, or heat carrying capacity of the two additives are the same, since they are both water.
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a-4800
THE ANSWER IS 62.8 DEGREES.....
THE ANSWER IS 62.8 DEGREES.....
When allowed to stand for long enough, the final temperature will reach room temperature.
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.
The temperature would be that of water's boilng point od 100 degrees
When hot metal is added into the water then the metal looses its energy into the water and this heat is gained by the water, so the temperature gets increases when hot metal added into it i.e final temperature is greater than initial temperature of water.
It boils above 100 degrees Celsius .
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If one were to pour a liter of water at 40 degrees C into a liter of water at 20 degrees C, the final temperature of the two liters of water becomes 30 degrees C. This is because the free energy capacity, or heat carrying capacity of the two additives are the same, since they are both water.
if 2.5kg of hot water at 100c is added to 10kg of cold water at 28c and stirred well. what is the final temperature of mixture? (neglect the heat absorbed by container and the heat lost by the surroundings.)
Slower, at higher temperature that is.
40 degree