1. Calculate the heat lost by the hot water.

2. Calculate the heat gained by the cold water.

3. Calculate the heat gained by the calorimeter.

4. Calculate the calorimeter constant.

Data:

Atmospheric Pressure- 100.87 kPa

Boiling point of water at this pressure- 99.8°C

Mass of empty calorimeter- 8.3676 grams

Mass of calorimeter plus 40 mL of water- 48.6923 grams

Mass of calorimeter after adding 50 mL of hot water- 98.0557 grams

Temperature of cold water just before adding addition of hot water- 21.7°C

Tmax- 61.3°C

Delta Tc- 39.7°C

Delta Thw- -37.5°C

(2 styrofoam cups were used for the calorimeter and there was no lid on it so it was open to the air)

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

A student determined the calorimeter constant of the calorimeter. The student added 50.00 ml of cold water to 50.00 ml of heated distilled water in a Styrofoam cup the initial temperature pf the cold water was 21.00 degrees Celsius and of the hot water 29.15 degrees Celsius the maximum temp of the mixture was found to be 24.891 degrees C the maximum temp of the mixture was found to be 24.81 Celsius assume the density of water is 1.00 g ml-1 and the specific heat is 4.184 J g-1 K-1.

1) Determine the ?T for the hot water and the cold water; calculate the heat lost by the hot water; calculate the heat gained by the cold water; Calculate the calorimeter constant, using the ?T of the cold water.

A student determined the calorimeter constant of the calorimeter, using the procdure described in this module. The student added 50.00 mL of cold water to 50.00 mL of heated, distilled water in a Styrofoam cup. The initial temperature of the cold water was 18.15 °C and of the hot water, 28.05 °C. The maximum temperature of the mixture was found to be 24.20 °C. Assume the density of water is 1.00 g mL-1 and the specific heat is 4.184 J g-1 K-1. Calculate the heat gained by the cold water.