A coffee-cup calorimeter contains 130.0 g of water at 25.3 ∘C . A 124.0-g block of copper metal is heated to 100.4 ∘C by putting it in a beaker of boiling water. The specific heat of Cu(s) is 0.385 J/g⋠K . The Cu is added to the calorimeter, and after a time the contents of the cup reach a constant temperature of 30.3 ∘C .

Part A

Determine the amount of heat, in J , lost by the copper block. (3350 J)

Part B Determine the amount of heat gained by the water. The specific heat of water is 4.18 J/g⋠K . (2720 J) Part C The difference between your answers for (a) and (b) is due to heat loss through the Styrofoam® cups and the heat necessary to raise the temperature of the inner wall of the apparatus. The heat capacity of the calorimeter is the amount of heat necessary to raise the temperature of the apparatus (the cups and the stopper) by 1 K . Calculate the heat capacity of the calorimeter in J/K . Express your answer using two significant figures. Part D What would be the final temperature of the system if all the heat lost by the copper block were absorbed by the water in the calorimeter?

A coffee-cup calorimeter of the type shown in Figure 5.17 contains 150.0 g of water at 25.1 °C. A 121.0-g block of copper metal is heated to 100.4 °C by putting it in a beaker of boiling water. The specific heat of Cu(s) is 0.385 J/g-K. The Cu is added to the calorimeter, and after a time the contents of the cup reach a constant temperature of 30.1 °C.
(a) Determine the amount of heat, in J, lost by the copper block. (b) Determine the amount of heat gained by the water. The specific heat of water is 4.18 J/g-K. (c) The difference between your answers for (a) and (b) is due to heat loss through the Styrofoam^® cups and the heat necessary to raise the temperature of the inner wall of the apparatus. The heat capacity of the calorimeter is the amount of heat necessary to raise the temperature of the apparatus (the cups and the stopper) by 1 K. Calculate the heat capacity of the calorimeter in J/K. (d) What would be the final temperature of the system if all the heat lost by the copper block were absorbed by the water in the calorimeter?

A coffee-cup calorimeter contains 140.0 g of water at 25.2 *C. A122.0 g block of copper metal is heated to 100.4 *C by putting itin a beaker of boiling water. The specific heat of Cu(s) is 0.385J/g*K . The Cu is added to the calorimeter, and after a time thecontents of the cup reach a constant temperature of 30.2 *C.

If the heat lost by the copper clock is 3300J, what is the amount of heatgained by the water? (specific heat is 4.18J/g*K)

Info for part 1: Determining the heat capacity of the calorimeter

Mass of the empty Styrofoam cups and cover: 30.21 g

Mass of the cups, cover and 70 ml cool water: 95.21 g

Mass of the cups, cover, 70 ml water and 30 ml hot water: 127.41 g

Initial temperature of the hot water (boiling bath): 99.5 C

Initial temperature of the cool water in the cups: 18 C

Final temperature of the calorimeter and the added hot water: 43 C

Calulations: Please show work I am so confused

a)Mass of the hot water (m_hot) (g)

b)Temperature change of the hot water (J)

c)Heat lost by the hot water (J)

d)Mass of the cool water (m_cool) J/C

e)Temperature change of the cool water J/C

f)Heat absorbed by the cool water

g) Heat gained by the calorimeter

h)Heat capacity of the calorimeter

i)Average Heat capacity of the calorimeter from both trials

J)Initial temperature of the hot metal (boiling bath): 30.21 g

K) Initial temperature of the cool water in the cups: 131.07 g

L)Final temperature of the calorimeter and the added hot metal: 84.67 g

Part 2 info: determining the heat capacity of a metal

Mass of the empty Styrofoam cups and cover: 30.21 g

Mass of the cups, cover and 100 ml water:131.07 g

Mass of the metal (m_m):84.67 g

Initial temperature of the hot metal (boiling bath): 99.3 C

Initial temperature of the cool water in the cups: 21.3 C