lab skills focus: filtration magnesium + sodium sulfate carbonate carbonate sulfate chemical...
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Lab Skills Focus: Filtration
magnesium + sodium → magnesium + sodium
sulfate carbonate carbonate sulfate
Chemical Equation
MgSO4 + Na2CO3 → MgCO3(s) + Na2SO4
Word Equation Clear liquid
When solutions of two soluble salts are mixed, a solid may form. This solid is called a precipitate. and the reaction is called a precipitation reaction.
Precipitation reactions are used to make insoluble salts.
In this example the soluble salts are magnesium sulfate and sodium carbonate, and the insoluble salt formed is magnesium carbonate.
Law of Conservation of Mass
Instructions1. Measure 5 g of baking soda and put into a flask.2. Measure 20 mL of vinegar and carefully pour it into a balloon.3. Carefully attach the balloon to the top of the flask
without spilling the vinegar into the flask.4. Place the flask with balloon on a weighing scale and
record the mass of the system.5. Tip the vinegar from the balloon into the flask and record
your observations.6. Measure the mass of the system after the reaction.7. Pop the balloon and measure the mass again.
Summary1. Explain whether your results support the Law of Conservation of Mass.
There are times when mass might appear to change during a chemical reaction.
If you experience this during an experiment, be sure to remember the Law of Conservation of Mass.
The change in mass must be accounted for in a way other than destroying or creating atoms.
Endothermic and Exothermic Reactions
(Heat Change)
Exothermic and Endothermic Reactions
An energy change accompanies the forming or breaking of a bond between atoms in a molecule.
O Energy is released (produces heat) when a bond forms
Exothermic
o Energy is absorbed from the surroundings to break the bonds in a molecule
Endothermic
In your notebook:
• Draw a diagram of the set-up• Make a data table• Make a graph• Calculate temperature change as a
function of time
Endothermic Reaction
1. Make a blank table for recording results. 2. Pour 25 mL of acetic acid into a 400 mL beaker. 3. Record the temperature of acetic acid as the starting
temperature. 4. Keep the thermometer in the acetic acid and add 5 g of baking
soda into the beaker.5. Watch the thermometer carefully and record the time for each degree Celsius drop.5. Graph the rate of temperature change. 6. Calculate the rate of temperature change.
Explore Lab 1:Energy change
Maximum ⁰C – Minimum ⁰C = Rate of temperature change Total Time (sec)
Calculating Rate of temperature change
Temperature/T degrees C Time/secStarting temperature- ex. 28
27
26
25
24
23
Endothermic Reaction
Explore Lab:Energy change
Summary:
Explain how this lab shows a chemical reaction.
How does the graph show that the reaction is endothermic? Explain.
Endothermic reaction results:
• Starts at around 25 degrees C and ends at around 21 degrees C
• Happens within about 2 minutes
http://www.youtube.com/watch?v=MyAzjSdc3FcEndothermic Reaction
Exothermic Reaction: Oxidation of steel wool
1. Put 8 grams of wool into a 400 mL beaker.2. Add enough acetic acid to completely cover the wool. 3. Swirl for 2 minutes to remove the protective coating. 4. Pour the acetic acid into a waste beaker.5. Quickly cover the beaker with Parafilm. 6. Insert a thermometer through the film and into the steel wool.7. Record the time for each degree Celsius rise and
follow the temperature/time profile through a 5 degree change.
Explore Lab 2:Energy change
Exothermic reactions
•The reaction produces heat.
•In this reaction vinegar is used to remove the protective coating from steel wool, allowing it to rust.
•When the iron combines with oxygen, heat is released.
Exothermic Reaction: Oxidation of steel wool
Summary:
Explain how this lab shows a chemical reaction.
On the same graph (endothermic), show a graph of temperature change as a function of time.
How does the graph show that the reaction is exothermic? Explain.
Exothermic Reaction: Oxidation of steel wool
4Fe + 3O2 2Fe2O3
4 Fe + 6 O = 4 Fe + 6 O
4 Fe + ___ O2 2 Fe2O3
Applying the Law of Conservation of Mass: How many atoms of Oxygen is needed to react with 4 atoms of Iron to form 2 units of Iron oxide?