Concept
|
Text Link
|
Rationale
for Choosing
|
Text Frame(s)
|
|
Cardiovascular System
|
This article covers
the ideas behind the scientific method while describing the research.
The article contains
vocabulary words that challenge the students and exposes students to the
cardiovascular system.
|
Concept/ definition
Vocabulary/ definition
|
Mind mapping (Buehl)
|
|
Cilia/Flagella
|
This article compares
two different models of similar motion in Biology (cilia, flagella) and
Physics (pendulum).
This article discusses
the idea of how cilia and flagella work.
|
Compare/Contrast
Cause/Effect
|
Paired questioning/reviews
(McLaughlin and Buehl)
Concept of Definition
Map (Buehl)
|
|
Scientific Method
|
This article can be
used as a means to explore different viewpoints and supporting evidence.
The article provides
vocabulary and terms related to Biology.
This article covers an
example of the Scientific Method for the students.
|
Proposition/Support
Vocabulary/Definition
Concept/definition
|
Author says/I say
(Buehl)
Semantic Map
(McLaughlin)
|
The three concepts that the three articles cover are the
cardiovascular system, cilia/flagella, and the Scientific Method. Graphic
organizers can help aid in the understanding of these concepts as either the
main strategy or a supplemental strategy used to complement the other reading
lesson strategies. For example, in the case of the cardiovascular system
concept article, the mind mapping graphic organizer is used as the main reading
strategy.
For the first concept, the
cardiovascular system, using the “Young Blood” article the lesson plan is to
use the mind mapping strategy. Mind mapping is a useful visual tool when
dealing with a broad concept such as the cardiovascular system. This allows
students to use the reading to organize their thoughts and their readings into
a single visual organizer. The lesson will start out with the teacher providing
a base mind map for the students to add onto. Initially the mind map will just
be previous knowledge the students have. The mind map will be displayed
prominently in the classroom while each student has his or her own copy.
Individually, in groups, or as a class, the students will add their own
branches to the mind map focusing on the key points and vocabulary the teacher
made note of. Students can also link their own personal experiences or
connections to the topic. The students will then read the article and add to
the mind map as they read making new connections or writing down important facts
or vocabulary. Afterwards, the class can reconvene and each person can share
what they added to the mind map as the teacher adds it to the class mind map.
Before, during, and after the reading the class mind map is displayed as a
reminder for students and also as an opportunity to add to the mind map as the
unit progresses.
Example Mind Map:
Using the concept of definition maps
as a graphic organizer can complement the second concept, cilia/flagella.
Concept of definition maps are similar to mind maps, but they are more guided. Concept
of definition maps begin with the main idea which is cilia/flagella in this
instance. The teacher then provides questions or prompts for the students to
answer that relate to the main idea that are branches extending from the main
idea. I think that this graphic organizer would work best when used after
reading. After the main reading strategy of paired review/questioning, the
teacher will then provide the concept of definition map graphic organizer. The
teacher will give prompts and then allow time for discussion with partners and
to write down their responses. An example question I could ask would be, “What
is the purpose of cilia/flagella?” The teacher can ask any number of questions
they deem appropriate for the text and concept. The teacher can guide the
students towards understanding the purpose of the lesson through these prompts.
Example of
concept of definition map:
For the final concept, semantic maps
would be most effective when dealing with the Scientific Method. Semantic maps
have a central topic in the center with branches extending outward to subtopics.
From there, the subtopics have information listed underneath them. I would
modify the semantic maps for the Scientific Method by arranging the branches
into a single line to signify the steps taken. I would break the Scientific
Method semantic map into different sections for each of the steps of the
Scientific Method. I would ask them questions such as “What is the importance
of this step in the process?” or “What is an example of this step in the
article’s experiment?” The questions act as guidance of scaffolding for the
teacher to lead the students in the right direction.
Example
semantic map:
References
Buehl, D., (2014) Classroom
Strategies for Interactive Learning, 4th ed. International
Reading Association.
Cain, M. (n.d.). Using mind-maps to
raise standards in literacy, improve confidence and encourage positive
attitudes towards learning. National
Teacher Research Panel. Retrieved from http://www.ntrp.org.uk/sites/all/documents/Cain.pdf
McLaughlin, M., (2015).
Content Area Reading: Teaching and Learning for College and Career
Readiness. Boston: Pearson.
Ornes, Stephen (2014). Young Blood:
The Elixir of Youth. Science News for
Students. Retrieved from
https://student.societyforscience.org/article/young-blood-elixir-youth
Safar, A. H., Jafer, Y. J., &
Alqadiri, M. A. (2014). Mind Maps as Facilitative Tools in Science Education. College Student Journal, 48(4), 629-647.
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