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Designed By: Elizabeth Rogiani
Temple University: College of Education
Objectives
Students will be able to identify the structures in plants that are responsible for food production, and water transport.
Students will be able to explain why flowers are able to change colors when food coloring is added to water.
Purpose/Goal The purpose of this lesson is for students to
understand that plants need water to survive and grow.
In order to achieve this, the students will see that the flowers “suck” up water through the roots to the stem and flower by conducting an experiment.
In this experiment, the students will color water with food coloring. As the flower “sucks” up the water, the flower will begin to change to the color of the food coloring.
Information We know that plants need water to grow, make seeds, and stay healthy.
But how can there be so many flowers that are unnatural colors?
Here’s how it works. The leaves and petals of plants have lots of small holes called stomatas. They're too small to see. Water evaporates through these holes. This is called transpiration. After the water evaporates, the plant needs more water to grow.
If the flower is planted in soil, the roots of the plant get the water from the soil and then the water travels up through its stem.
But, if the flower is in a container of water, it does not have any roots so it just sucks up the water through its stem.
Let’s see how this works!
Vocabulary and Concepts Carnation
The carnation is a flower that is often used in bouquets and corsages.
Evaporation The process of water molecules
escaping the surface of the Earth and entering the atmosphere
Stomata Tiny holes in the leaves that release
water into the air
Transpiration A continuous process caused by
the evaporation of water from leaves of plants and its corresponding uptake from roots in the soil.
Parts of a flower
Leaf
Roots
Flower
Materials White Carnations
Clear Glass
Scissors
Water
Food Coloring
Data Chart
Time Carnation#1 (Blue)
Carnation #2 (Purple)
Carnation #3 (Red)
Carnation#4 (Yellow)
Directions: For each Carnation, please record the time and any changes that may appear (Number of Carnations may vary)
Results SummaryCarnation #_____ Appearance in the
BeginningAppearance after
_____ hours
Note: Actual table should be all white for the students to draw their pictures.
Step 1:Make a Prediction
What do you think will happen?
Will the Carnation change color? Why or Why not?
How long do you think it will take to change color?
Write down your predictions on a piece of paper.
Step 2:Set up Experiment
Have an adult cut the Carnation’s stem.
Fill clear glass with water about half way and place White Carnations in the glass.
Step 2:Set up Experiment
Choose which food coloring colors you wish to use in this experiment.
Step 3:Dye the Water
Place 10-20 drops of food coloring into the glass of water.
Make sure the water is dark.
Step 4:Observe
Check your Carnations every few hours to see how the petals change color.
Record your findings in your data chart.
Experiment Results
Carnations at beginning of experiment
12:15 PM
Both flowers are completely white.
Experiment Results Carnations after about 1
hour and 45 minutes 1:45 PM
The Carnation in the Blue water started to change slightly.
The Carnation in the Purple water did not change.
Experiment Results Carnations after about
another hour and a half 3:15 PM
The rims of both of the flowers began to change to the color of the food coloring.
The blue is more apparent.
Experiment Results Carnations after about
another 2 hours
5:15 PM
The purple is starting to become more apparent.
The blue is very bright and spreading through the whole petal.
Experiment Results Carnations after about
another 2 hours 7:15 PM
The petals on the flower in the purple water is a very dull purple.
The blue is very bright and the whole flower is almost all blue.
Reflection Take out your prediction
paper and flip it over.
Answer the following questions: Was your prediction
correct?
How long did it take your flowers to change color?
Did anything surprise you?
What did you learn?
Did this experiment help you learn the concept?
Would you recommend this experiment to a friend? Why or why not?
Conclusion As you probably noticed, most
plants have a "drinking" problem. Okay, in this case it's a good problem. Most plants "drink" water from the ground through their roots.
The water travels up the stem of the plant into the leaves and flowers where it makes food.
When a flower is cut, it no longer has its roots, but the stem of the flower still "drinks" up the water and provides it to the leaves and flowers.
Coloring the water with food coloring does not harm the plant in any way, but it allows you to see the movement of water through the roots to the shoots.
Tiny tubes in the stem run all the way from the stem to the petals of the flowers.
Our experiment indicates that the colored water traveled up the stem and into the petals of the Carnations.
Extension This popular trick is called
"Split Ends" and it requires some help from an adult.
Have your adult helper use a sharp knife to slit the stem straight down the middle.
Put each half of the stem into a cup of different colored water (try positioning the red and blue cups next to each other, for example).
Make some predictions:
Which color will be soaked up?
Will the colors mix to make a new color?
Links to Internet Resources Relating to This Picture Lesson
Create a Graph: :
http://nces.ed.gov/nceskids/createagraph/
BrainPOP Video:
http://www.brainpop.com/science/cellularlifeandgenetics/photosynthesis/preview.weml
More Picture Lessons
To see other picture lessons go to…
http://science-inquiry.wikispaces.com/