Edible Rocks: How Can a Cookie Be a Model of a Rock?

Edible Rocks: How Can a Cookie
Be a Model of a Rock?
For this investigation, we will be learning about models. A
model is a representation of something that is too difficult to
study otherwise. For example, if you wanted to create a new
kind of airplane, would you create a design, build it and hope it
would fly? It would be wiser to create a smaller version of the
airplane to test first!
Today, we will be looking at models of rocks. We will be taking
apart our “rocks” to look at the “minerals” within them. We will
use these models because tearing apart rocks is a much more
difficult task for which we do not have the equipment. Plus,
rocks do not taste so good!
We will use toothpicks to carefully pick our “rocks” apart.
Separate each of the minerals you find into separate piles. The
minerals will then be separated from the “dough,” or “matrix,” of
the rock. After we have dissected the rocks, we will use Tcharts to record our results.
Each person will receive a model, and each person will record
his/her own findings. After you record what minerals you have
found, you will graph your results along with two other students’
results. As these rocks all came from the same “batch,” the
differences we find among the rocks will be important to get a
better idea of what most of these rocks look like.
Edible Rocks: How Can a Cookie Be a Model of a Rock?
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Then we will make some conclusions about our rocks. What
minerals are generally in these rocks? Then new questions!
Could we use this model to discover other facts about rocks?
Edible Rocks: How Can a Cookie Be a Model of a Rock?
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Edible Rocks: How Can a Cookie Be a Model of a Rock?
Suggested Grade Span
6–8
Task
For this investigation, we will be learning about models. A model is a representation of
something that is too difficult to study otherwise. For example, if you wanted to create a new
kind of airplane, would you create a design, build it and hope it would fly? It would be wiser to
create a smaller version of the airplane to test first!
Today, we will be looking at models of rocks. We will be taking apart our “rocks” to look at the
“minerals” within them. We will use these models because tearing apart rocks is a much more
difficult task for which we do not have the equipment. Plus, rocks do not taste so good!
We will use toothpicks to carefully pick our “rocks” apart. Separate each of the minerals you find
into separate piles. The minerals will then be separated from the “dough,” or “matrix,” of the
rock. After we have dissected the rocks, we will use T-charts to record our results.
Each person will receive a model, and each person will record his/her own findings. After you
record what minerals you have found, you will graph your results along with two other students’
results. As these rocks all came from the same “batch,” the differences we find among the rocks
will be important to get a better idea of what most of these rocks look like.
Then we will make some conclusions about our rocks. What minerals are generally in these
rocks? Then new questions! Could we use this model to discover other facts about rocks?
Big Ideas and Unifying Concepts
Change and constancy
Models
Earth and Space Science Concept
Earth structure and system
Mathematics Concepts
Data collection, organization and analysis
Graphs, tables and representations
Edible Rocks: How Can a Cookie Be a Model of a Rock?
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Time Required for the Task
Two periods of 45 minutes each.
Context
Students have begun their study of rocks and minerals. We have previously classified rocks
and minerals and have defined the two terms so that they understand the differences. We have
looked at minerals, and have discovered the different properties of these.
What the Task Accomplishes
The science objectives of this lesson are twofold. First, the knowledge of rocks and minerals
(and their differences) will be reinforced. By tearing apart these “rocks,” students will see how
the minerals make up the rock. (This can be connected further to the cookie dough as the
matrix of the rock, the glue that holds a conglomerate together.) Second, students will use a
model to extend their conceptual understanding. With this introduction to models further lessons
can take place in either using models or creating them.
How the Student Will Investigate
This is an experiment that has been used in a variety of mediums. After a review of rocks and
minerals, I have students brainstorm models (buildings, movie sets, etc.) and why they are
used. Then I hand out hunks of granite. We discuss how it would be difficult to extract the
minerals from this rock. So, I suggest a model. I hand out the enclosed sheet, “Edible Rocks,”
and discuss how we will use a cookie (“A cookie!” they exclaim) for a model of a rock.
The students get a napkin (or plate), a toothpick and their cookie. They carefully extract the
minerals and place these minerals in separate piles. They record their data on the T-charts
provided. After they have recorded their own results, they collect data from two other people
and record those. Then they eat their cookies. This ends the first lesson.
After a review of what we did the previous lesson, students graph their results alongside the
results of their partners. We discuss which minerals were most often found and what this could
mean with rocks found in the world. Conclusions are drawn about the use of these models and
further questions are brainstormed.
Interdisciplinary Links and Extensions
Science
Have students create models of rocks with different compositions of minerals and/or models of
different types of rocks (i.e., sedimentary, metamorphic, etc.).
Mathematics and Technology
Students graph results to show patterns. Students could use computers to organize, analyze
and interpret data.
Edible Rocks: How Can a Cookie Be a Model of a Rock?
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Teaching Tips and Guiding Questions
During the lesson, emphasize to students that they should be careful extracting their minerals.
The use of a toothpick assists this, as you can’t go too quickly with something so small.
Emphasize that they are using this as a model.
Ask questions such as:
• How would this model help others to learn about minerals and rocks? Can you tell me
something about cookies from the same batch?
• How about minerals from the same batch of molten rock? Are all rocks of the same type
really the same? Why or why not?
Once they are finished dissecting and recording, ask students to extend their study by trying to
put the cookie back together without the minerals. This can simulate the extraction of minerals
from the earth and the difficulties with reclaiming the land.
Concepts to be Assessed
(Unifying concepts/big ideas and science concepts to be assessed using the Science
Exemplars Rubric under the criterion: Science Concepts and Related Content)
Earth Science – Earth Structure and System: Students observe physical properties of rocks in
order to understand their formation through being compacted, heated and/or recrystalized into
new rock. Students use the terms minerals, rocks and conglomerates appropriately. Students
describe cause-effect relationships with some justification, using data and prior knowledge.
Scientific Method: Students determine the patterns and/or which kinds of change are
happening by making a graph or table of measurements (change and constancy). Students see
that how a model works after changes are made to it may suggest how the real thing would
work if the same thing were done to it (with the extension of using the cookie as the land and
the minerals as the extracted coal, diamonds, etc.). Students see that choosing a useful model
(not too simple/not too complex) to explore concepts encourages insightful and creative thinking
in science, mathematics and engineering (models).
Mathematics: Students identify trends and patterns. Students use tables and graphs to show
how values of one variable are related (increase, decrease, etc.) to the values of another.
Skills to be Developed
(Science process skills to be assessed using the Science Exemplars Rubric under the criteria:
Scientific Procedures and Reasoning Strategies, and Scientific Communication Using Data)
Scientific Method: Observing, collecting and recording data, measuring/estimating, drawing
conclusions, communicating findings and raising new questions.
Edible Rocks: How Can a Cookie Be a Model of a Rock?
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Other Science Standards and Concepts Addressed
Scientific Method: Students describe, predict, investigate and explain phenomena.
Scientific Theory: Students look for evidence that explains why things happen and modify
explanations when new observations are made.
Earth Science – Earth Structure and System: Students see that some changes in the solid
earth can be described as the “rock cycle.” Students understand that old rocks at the earth’s
surface form sediments that are buried, then compacted, heated and often recrystalized into
new rock.
Communication: Students use verbal and nonverbal skills to express themselves effectively.
Suggested Materials
I provide cookies with parts that do not melt. I used a chocolate chip recipe with chips, M&Ms®
and cranberries. (Nuts also work, if nut allergies are not a factor.) Students will also need a lab
sheet (see page 8), graph paper, rulers, napkins and toothpicks.
Possible Solutions
Students should be able to accurately collect and display data both in a chart and in graph form.
They should also be able to explain why models are used (or why this model was used).
Task-Specific Assessment Notes
Novice
The student’s solution is incomplete. Some data is recorded, but it is not accurately displayed
on the graph. The student may not have recorded information from more than him/herself. The
graph is not complete and is not fully labeled. There is little evidence that the student
understands why the model is used and/or cannot communicate what this model shows.
Apprentice
This student’s solution is lacking in detail, although the task is completed. The student attempts
to offer one reason for the use of this model, although that reason may be incomplete. The
student is able to state some aspects of the data gathered but is unable to clearly articulate a
trend or connection between the data and the model. There are some inaccuracies of data
displayed on the graph. The student attempts to use the terms rocks and minerals appropriately.
Practitioner
This student’s solution is complete. All data are recorded accurately. The graph is clear and
labeled properly. The student shows understanding of the model and its use by making some
conceptual connections between the model and the study of rocks and minerals. A correlation
between the data and the conclusion is shown.
Edible Rocks: How Can a Cookie Be a Model of a Rock?
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Expert
This student’s solution is complete and detailed. There is evidence of use of prior knowledge
and experience about rocks and minerals. The graph is clearly labeled and accurate. The
student gives a detailed explanation of the relationship between the model and the rocks and
minerals and extends thinking to another use of the model.
Edible Rocks: How Can a Cookie Be a Model of a Rock?
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Edible Rocks: How Can a Cookie Be a Model of a Rock?
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Novice
Edible Rocks: How Can a Cookie Be a Model of a Rock?
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Novice
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Apprentice
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Apprentice
Edible Rocks: How Can a Cookie Be a Model of a Rock?
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Practitioner
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Practitioner
Edible Rocks: How Can a Cookie Be a Model of a Rock?
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Expert
Edible Rocks: How Can a Cookie Be a Model of a Rock?
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Expert
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