What causes liquids to flow?
What happens when the same liquids with different colors are mixed?
What happens when the same liquids with different temperatures (hot and
cold) are mixed?
What happens when different liquids of different colors are mixed?
Process
How do scientists record observations?
How do scientists organize their records to see patterns?
How do scientists use observations to understand?
How do scientist convince other scientists that their observations are
accurate?
Concepts
Content: Earth, Physical, & Life
Different liquids may have different or similar densities.
Different concentrations may have different or similar densities.
Liquids of different temperatures have different densities.
Cross cutting concepts
Evidence is collected through observation.
Change is a difference in properties over time.
Very careful observations can help us notice changes we sometimes overlook.
Observations are used to collect evidence to use to explain why certain
events happen.
Science Practice
Communication
Diagrams can be used to show change.
Charts help to organize information to see patterns.
Symbols may be used to communicate observations.
Experimenting
A fair experiment controls all variables and uses a control.
Personal, Social, Technology, Nature of Science, History
Other possible concepts: concentrations, temperature, expansion, volume,
mass, control, variables, observation, evidence
Background information
Teacher preparation
REQUIRED: The following solutions need to be made before class.
Materials:
8 small containers per group, 1-4 droppers per group, kosher salt, green, red,
blue food coloring, paper towels, soapy water, hot and cold water.
Recipe for salt water
solutions:
Use Kosher salt for a less cloudy solution. Add food coloring to a medium-dark
solution. Light colored solutions are harder to observe.
Green 250 ml salt 1000 ml water most dense
Red 165 ml salt 1000 ml water
Clear 60 ml salt 1000 ml water
Blue None 1000 ml water least dense
To release a drop below the surface place the dropper part way into the water
and squeeze. Observe if the drop rises or sinks.
Other concepts: concentration, temperature, expansion, volume, mass, control,
variables, observation, evidence
A chart can be made with red, blue, clear,
and green across the side and top. Label one drops and the other container. Write
the results in the corresponding cell.
Activity Sequence
1. Colored drops in water.
2. Colored drops in different liquids.
3. Colored drops in different temperatures of water.
4. Colored drops in colored liquids.
Activity Descriptions
1. Colored drops in
water:
Materials:
Red and blue food coloring, dropper, 4 small containers, water, and soapy water
- Ask what will happen
when a drop of red or blue food coloring is released in plain water. (RELEASED
could be above or below the surface.)
- Write predictions on
the board.
- Ask students how they
could chart their observations.
- Have students do the
following and record their observations.
- Put plain water in a
small container.
- Squeeze a drop of red
food coloring into the water.
- Record observations
and explain what happened.
- Rinse the dropper.
- Put the same amount
of water in the second container.
- Add a drop of blue food
coloring to the water.
- Record your observation
and explain what happened.
- Have the class discuss
what happened.
- Ask students to discuss
what changed when red and blue food coloring were added to the water.
- Ask what variables were
the same or controlled and what variable changed?
- Discuss why the results
were the same or different.
- Ask how the chart helped
them understand or use their observations.
2. Colored drops in
different liquids:
Materials:
Food coloring, 2 droppers, 4 small containers, salt water, soapy water
- Ask what will happen
when a drop of blue or red food coloring is released in salt water? (RELEASED
could be above or below the surface.)
- Write prediction on
the board.
- Ask students how they
could chart their observations.
- Have students do the
following and record their observations.
- Put salt water in a
small container.
- Squeeze a drop of red
food coloring into the salt water.
- Record observations
and explain what happened.
- Rinse the dropper.
- Put the same amount
of salt water in the second container.
- Add a drop of blue food
coloring to the salt water.
- Record your observation
and explain what happened.
- Have the class discuss
what happened.
- Ask students to discuss
what changed when red and blue food coloring were added to the salt water.
- Ask what variables were
the same or controlled and what variable changed?
- Discuss why the results
were the same or different.
- Ask if the chart helped.
- Ask how the observations
of food coloring in salt water compare to the observations of food coloring
in plain water?
3. Colored drops in
different temperatures of water:
Materials:
Food coloring, 2 droppers, 4 small containers, hot and cold water, soapy water
- Ask what will happen
when a drop of blue or red food coloring is added to hot or cold water? (RELEASED
could be above or below the surface.)
- Write prediction on
the board.
- Ask students how they
could chart their observations.
- Have students do the
following and record their observations.
- Put the same amount
of hot water and cold water in two small containers.
- Squeeze a drop of red
food coloring into each.
- Record observations
and explain what happened.
- Rinse the dropper.
- Put the same amount
of hot water and cold water in two other containers.
- Add a drop of blue food
coloring to each.
- Record observations
and explain what happened.
- If you released all
the drops above water, then repeat all of the above by releasing the drops
below the surface of the hot and cold water..
- Record the observation
and explain what happened.
- Have the class discuss
all the results.
- Ask students to discuss
what changed when the temperature of the water changed.
- Ask what happened when
drops were released below the surface?
- Ask what variables were
the same or controlled and what variable changed?
- Discuss why the results
were the same or different.
- Ask how they had to
change their chart.
- Ask how these observations
compared with the previous activities.
4. Colored drops in
different colored liquids:
Materials:
Green, red, blue, and clear solutions, droppers, 4-8 small containers, water,
soapy water
- Challenge the students
to think of how they could combine the four different liquids.
- Write their suggestions
on the board.
- Ask how they could make
a chart to show what happened when each liquid was released in each other
liquid both above the surface and below the surface.
- Suggestion: If the drop
goes down in a liquid, use an arrow pointing down. If a drop goes up, use
an arrow pointing up . If a drop spreads, use a circle
- Test all possible combinations
of colors.
- Put results on the chart.
- What can you conclude
about the four liquids?
- If you had equal volumes
of the four liquids, which would be the heaviest (most dense)?
- Rank the liquids in
order from heaviest to lightest (greatest to least density).
- What did you learn about
evidence and how important it is to collect good evidence to make explanations?
- What did you learn about
making charts to record observations and understand data.
Dr. Robert Sweetland's notes