Find the ammount of steam needed for the system to reach a final temperature of 48 C
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Steam at 100°C is condensed into a 62.0 g brass calorimeter cup containing 220 g of water at 21.0°C. Determine the amount of steam (in g) needed for the system to reach a final temperature of 48.0°C. The specific heat of brass is 380 J/(kg · °C).
Steam at 100°C is condensed into a 46.0 g brass calorimeter cup containing 300 g of water at 29.0°C. Determine the amount of steam (in g) needed for the system to reach a final temperature of 56.0°C. The specific heat of brass is 380 J/(kg · °C).
Steam at 100°C is condensed into a 54.0 g copper calorimeter cup containing 300 g of water at 21.0°C. Determine the amount of steam (in g) needed for the system to reach a final temperature of 48.0°C. The specific heat of copper is 387 J/(kg · °C).
the amount of steam (in g) needed for the system to reach Steam at 100°C is condensed into a 54.0 g steel calorimeter cup containing 300 g of water at 23.0°C a final temperature of 64.0°C. The specific heat of steel is 490 3/(kg °C).
Steam at 100°C is condensed into a 54.0 g copper calorimeter cup containing 280 g of water at 25.0°C. Determine the amount of steam (in g) needed for the system to reach a final temperature of 64.0°C. The specific heat of copper is 387 J/(kg·°C). 4231.29 Be sure to account for the heat energy absorbed by the calorimeter cup and the water in the cup, and the heat energy contributed by the steam. Note that the steam contributes heat energy...
A 50.0-g copper calorimeter contains 260 g of water at 20.0°C. How much steam at 100°C must be condensed into the water if the final temperature of the system is to reach 45.0°C? g
2. Steam at a temperature of 110 C is added to an aluminum calorimeter containing 250g of water at 30°C. The mass of the calorimeter is 140g and of specific heat 0.22 calg.Co. Find the mass of steam specitic hea needed that will produce a mixture of temperature 50°C. (Assume no heat is lost or gained from the surrounding.)
How much heat is needed to change 48 g water at 48 ° C to steam at 127 ° C?
A coffee cup calorimeter is prepared, containing 100.000 g of water (specific heat capacity = 4.184 J/g K) at initial temperature 80.000 C. A salt weighing 7.228 g is quickly added. The salt has a molar mass of 211.503 g/mol. The final temperature of the solution is 8.795 C. Assume no heat loss to the surroundings. Assume the specific heat capacity of the solution is equal to that of pure water, and that the mass of the solution is equal...
A coffee cup calorimeter is prepared, containing 100.000 g of water (specific heat capacity = 4.184 J/g K) at initial temperature 80.000 C. A salt weighing 5.445 g is quickly added. The salt has a molar mass of 250.465 g/mol. The final temperature of the solution is 33.49 C. Assume no heat loss to the surroundings. Assume the specific heat capacity of the solution is equal to that of pure water, and that the mass of the solution is equal...
A coffee cup calorimeter is prepared, containing 100.000 g of water (specific heat capacity = 4.184 J/g K) at initial temperature 80.000 C. A salt weighing 5.451 g is quickly added. The salt has a molar mass of 124.742 g/mol. The final temperature of the solution is 73.937 C. Assume no heat loss to the surroundings. Assume the specific heat capacity of the solution is equal to that of pure water, and that the mass of the solution is equal...