Name:____________________________Date:_______________Time:____________
Partner's Name:
________________________Course:_________________
______________________________________________________________________
Specific Heat and
Latent Heat
Purpose: To determine the specific
heat of metals and the latent heat of fusion of ice by the method of
calorimetry.
A. Specific Heat
Apparatus: Calorimeter and
accessories, metal objects (Al & Cu), temperature sensor, PC w/interface,
electronic balance, hot plate, beaker, water, and thread.
Theory:
In this experiment the metal object
will be heated in boiling water (temperature = 1000C) and
transferred to the calorimeter cup with water. The rise in temperature will be
measured with a temperature sensor. In order to calculate the specific heat you
need to derive an expression for the specific heat of the metal, Cm in
terms of measurable quantities.
1. Write down an expression for the heat loss by the metal object =
_________________
(Use the following measurable quantities: Mm = mass of the metal
object, Cm = specific heat of the metal object, temperature of
the hot metal (1000C), and Tf = final temperature of the
metal object).
2. Write down an expression for the
heat gain by water = _________________________
(Use the following measurable quantities: Mw = mass of water, Cw
= specific heat of water, Tf = final temperature of water, and Ti
= initial temperature of water).
3. Write down an expression for the
heat gain by the calorimeter cup = ______________
(Use the following measurable quantities: Mc= mass of the
calorimeter cup, Cc= specific heat of the calorimeter cup, Tf
= final temperature of the calorimeter cup, and Ti = initial
temperature of the calorimeter cup).
Equating Heat loss by metal to Heat
gain by water & cup will give an expression for, Cm:
________________________________________________________________________
________________________________________________________________________
Procedure:
1) Fill the beaker with water (about
2/3 full), place it on the hot plate, and bring the water to boil.
2) Find the mass of a metal
object.
3) Find the mass of the calorimeter
cup. Get some tap-water (about 1/2 full) in the cup and find the mass of the
cup with water.
4) Set the calorimeter cup inside the
calorimeter jacket and close the lid.
5) Lower the metal object into the
boiling water by means of a thread. Make sure that the metal is completely
immersed and not to touch the bottom or sides of the beaker. You need to hold
the metal in the boiling water for about 2-3 minutes.
6) While you are holding the metal in
the boiling water, let your partner measure the initial temperature of the
calorimeter cup and water by following procedures 7 & 8.
7) To measure temperature:
Connect the temperature sensor to analog channel A, open
"DataStudio", select "Create Experiment", scroll down the
sensors and double-click temperature sensor. Double-click Digits Display
and click "start".
8) Place the temperature sensor inside
the calorimeter cup and record the initial temperature of the calorimeter cup
and water, Ti, to the nearest tenth of a degree.
9) Transfer the metal object from the
boiling water, quickly to the calorimeter cup. Stir the water and watch the
temperature until the temperature peaks. Record this peak temperature. (Tf)
10) Calculate the specific heat and
compare it with the accepted value.
11) If the % error is high consult the
instructor.
12) Repeat procedures 2-11 for the other
metal object, using fresh tap-water each time.
DATA:
Specific heat of the calorimeter cup
material = Cc = 0.215 cal/(g.C0)
Specific heat of water = 1.0 cal/(g.C0)
Mass of the calorimeter cup = Mc
=_________g.
|
type of metal .-> |
Aluminum |
Copper |
|
mass of the metal object, Mm |
- |
- |
|
mass of (calorimeter-cup + water) |
- |
- |
|
mass of water, Mw |
- |
- |
|
initial temperature of water, Ti |
- |
- |
|
final temperature of water, Tf |
- |
- |
|
calculated specific heat, Cm [cal/(g.C0)] |
- |
- |
|
accepted specific heat [cal/(g.C0)] |
0.215 |
0.093 |
|
percent error |
- |
- |
B. Latent Heat of fusion of Ice
Apparatus: calorimeter with jacket,
water, ice cube, temperature sensor, PC w/interface, and, electronic balance.
Theory: In this part ice at 00C
(mass Mi) will be added to a calorimeter cup (mass Mc)
with water (mass Mw).
Follow the following steps and derive
an expression for the latent heat of fusion of ice,Lf.
1. Write down an expression for the
heat gain by the ice:
Heat gain, by the ice =
_______________________________________
(Use the following measurable quantities: Mi - mass of ice, Lf
- latent heat of fusion of ice, Cw - specific heat of water, and Tf
- final temperature of water).
2. Write down an expression for the
heat loss by the calorimeter cup:
Heat loss, by the calorimeter cup = ____________________________________
(Use the following measurable quantities: Mc- mass of the
calorimeter cup, Cc- specific heat of the calorimeter cup, Ti-
initial temperature of the calorimeter cup, and Tf - final
temperature of the calorimeter cup).
3. Write down an expression for the
heat loss by water:
Heat loss, by the water =
_____________________________
(Use the following measurable
quantities: Mw- mass of the water, Cw- specific heat of
the water, Ti- initial temperature of water, and Tf -
final temperature of water).
Equating the heat gain and heat loss
will give an expression for Lf :
________________________________________________________________________
________________________________________________________________________
Procedure:
1) Record the room temperature, using
your thermometer.
2) Find the mass of the calorimeter
cup.
3) Fill the calorimeter 2/3 full of
room temperature water and find the mass of the calorimeter with water.
4) Place the calorimeter cup with
water in the calorimeter jacket and put on the lid. Record the temperature of
the water, Ti, to the nearest tenth of a degree.
5) Add a cube of ice to the water.
Watch the temperature while stirring and record the minimum temperature
reached, Tf. Make sure the ice cube is completely melted.
6) Find the mass of the calorimeter,
water, and melted ice.
7) Compute Lf and its
percent error.
DATA
|
Specific heat of the calorimeter cup |
|
|
Mass of the calorimeter cup |
|
|
Mass of the calorimeter cup with water |
|
|
Mass of water |
|
|
Initial temperature of water |
|
|
Final temperature of water |
|
|
Mass of the calorimeter cup, water, and melted ice |
|
|
Mass of ice |
|
|
Calculated Lf |
|
|
Accepted Lf |
79.7 cal/g |
|
% Error |
|
Conclusion: (Write a combined
conclusion for both activities)