Unit 2 – Day 8
Wednesday October 9th
Candle Lab DrillAnswer in complete sentences or copy questions:
1. As a candle melts all the way down, how does the amount of wax change?
2. What colors did you see in the flame?
3. Did the flame touch the wax?
4. Could the flame burn the wire mesh?
5. What did you see on the bottom of the beakers that you held above your flames?
6. How many significant digits:
A. 1,000.0 m B. 4 mL C. 3 x 103 L
CANDLE LAB PART TWO
• Answer these questions in complete sentences in your lab notebook.
• 20 points + the 10 points for your observations = total lab grade for candle lab.
CANDLE LAB QUESTIONS #1
1 - 1. What states or phases of matter were present inside the candle flame?
1 – 2. What observations prove that each state of matter you listed in question 1 – 1 was present in the flame ?
CANDLE LAB Questions # 2
States of matter:
2 – 1. Was your flame just gas or was it a mixture of gas and solid? Give two reasons supporting your choice.
CANDLE LAB Questions # 3
Freezing, Melting & Boiling Points
3 – 1. The metal heated so that it glowed orange, but did not burn or melt. Why?
3 – 2. What were the two possible fates of the liquid wax that melted near the candle?
3 – 3. Is the freezing point of liquid wax higher or lower than room temperature?
Candle lab question # 4
4 – 1. Why did the flame go out after you covered your candle with an Erlenmeyer beaker?
4 – 2. What are the three ingredients necessary for combustion to happen?
Matter changes states in candle lab:
• Before flame is lit:– Candle is a solid
• When candle is burning:– Wax is still solid in most of the candle
– Wax is liquid near flame
– Wax is changed into a mix of gases and tiny new solids inside the flame
Gases
• Indefinite Shape & Volume
• A gas with a lot of energy will give off light (This is why fire is visible)
• Types of gas mixtures:– Different gases– Gas with liquid (aerosol cans)– Gas with small solids (pollution, smoke)
Gas Colors• In the candle lab – the flame is a gas that
has so much energy that it gives off light.
• The flame is orange when there is still some solid fuel (wax) mixed in with the gas
• The flame is blue when it is
pure gas.
Solids – p 34 & 340
• Atoms or molecules do not move around, just vibrate in place
• Add heat (i.e. fire from a match) and movement gets faster
• Once movement is fast enough, solid becomes a liquid or even a gas
Solids – p 34 & 340
• Temperature at which solid changes to a liquid = melting point
• Temperature at which liquid changes to a solid = freezing point
• Melting point = Freezing point – SAME TEMPERATURES!
COMBUSTION = fire
In candle lab• Wax = fuel• Oxygen reacts with the fuel• Match = energy
Combustion in general:• Self-sustaining• Releases heat
Density & Phases (or states) of Matter
• Density is intensiveIt does not change based on how much volume
of matter you are looking at
D10mL = D20mL = D30mL = D40mL = 1g/mL
The scientifically accepted value for water density at room temperature (22 degrees C) is 1.00 g/mL
• When does the density of water change?When matter changes phases, solid H2O (ice)
has a lower density than liquid H2O
Why?
• When water becomes a solid, the water molecules stop sliding past each other.
• No two snowflakes ever the same
• Solid ice has a predictable pattern that is the result of the way the water molecules “hold each other” in place.
You have this in your notes• Physical state (solid, liquid, aqueous & gas)
A measure of how much energy matter has.
Solid = less energy Liquid = more energy Gas = most energy
Remember this slide?Matter at the Chemistry Scale
Mixtures- homogenous
- heterogeneous
Pure Substances- Compounds molecule is smallest
or
- Elements atom is smallest
Phases/States of MatterSOLIDS
• Molecules or atoms are all fixed in place
• When enough energy is added, molecules/atoms start moving solid becomes a liquid
• The temperature at which that happens is the melting point
Phases/States of MatterLIQUIDS
• Molecules/atoms have enough energy that they move around, bumping into each other all the time
• Add enough energy and molecules/atoms move so fast that they escape as gases.
• The temperature at which this happens is the boiling point
States/Phases of MatterGASES
• Molecules/atoms are so far apart as to never bump into each other
•