A calorimeter contains 140 g water. The calorimeter and the water inside are both at 24 °C. A piece of metal weighing 45 g was heated to 98 °C and then put into the water inside the calorimeter. The equilibrium temperature was determined to be 35 °C. Assuming no heat is lost to the environment, calculate the specific heat of the metal. Calorimeter constant: 130 J°C-1 Specific heat of water: 4.184 J°C*'g1 O A. 2.26 J°C-lg1 O B. 2.78 J°Clg-1 oc.1.81 J°Cg1 O D.193 J°C-lg1 O E. 2.37 J°C-1g-1

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Chapter6: Thermochemisty
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Problem 6.111QP: In a calorimetric experiment, 6.48 g of lithium hydroxide, LiOH, was dissolved in water. The...
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A calorimeter contains 140 g water. The calorimeter and the water inside are both at 24 °C.
A piece of metal weighing 45 g was heated to 98 °C and then put into the water inside the calorimeter. The equilibrium temperature was determined to be
35 °C. Assuming no heat is lost to the environment, calculate the specific heat of the metal.
Calorimeter constant: 130 J°C-1
Specific heat of water: 4.184 J°C*g1
O A. 2.26 J°C-lg1
O B. 2.78 J°Clg-1
oc.1.81 J°Cg1
O D.193 J°C-lg1
O E. 2.37 J°C-1g-1
Transcribed Image Text:A calorimeter contains 140 g water. The calorimeter and the water inside are both at 24 °C. A piece of metal weighing 45 g was heated to 98 °C and then put into the water inside the calorimeter. The equilibrium temperature was determined to be 35 °C. Assuming no heat is lost to the environment, calculate the specific heat of the metal. Calorimeter constant: 130 J°C-1 Specific heat of water: 4.184 J°C*g1 O A. 2.26 J°C-lg1 O B. 2.78 J°Clg-1 oc.1.81 J°Cg1 O D.193 J°C-lg1 O E. 2.37 J°C-1g-1
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