Playing Sports: Subconscious Quadratics?
Playing
Sports: Subconscious Quadratics?
An
analysis of textual readings for use in a 9th grade Algebra 1 class.
Ferguson, T. (2016). The sport
of solving quadratic equations. Retrieved from https://www.sagu.edu/thoughthub/the-sport-of-solving-quadratic-equations
Common Core Math Standard: CCSS.MATH.CONTENT.HSF.IF.B.4
For a
function that models a relationship between two quantities, interpret key features of graphs and tables in terms of
the quantities, and sketch graphs showing
key features given a verbal description of the relationship. Key features include: intercepts; intervals
where the function is increasing, decreasing,
positive, or negative; relative maximums and minimums; symmetries; end behavior; and periodicity.
We chose to stick with our topic of quadratic
functions. As mentioned last week, this
function family has countless applications in the real world, including
science, physics, engineering, and business.
One application that we did not mention specifically last week is the
application in sports, branching off from the concept of projectile
motion. Following our broader
introduction last week, we wanted to go into a little bit more detail and
really build an engaging connection for younger high school students. I actually used this concept in teaching this
topic recently and my 9th graders were absolutely stunned and amazed
by this connection that most of them had all along without even knowing
it. Selecting an engaging, interesting,
yet educational article like this can be crucial in a successful reading lesson
in mathematics.
As I read for the first time, the article flowed very well
and I have no doubts that my freshman would be able to fully read and
comprehend this. The accompanying
graphics really help to build connections and substantiate understanding. The information is organized in a way that is
clear, simple, and brief. There is not
an overwhelming amount of complex phrases or concepts, yet the article conveys
some higher-order ideas in this content area.
The article began with a catchy introduction, informing readers that
they calculate and solve quadratics, sometimes for hours, without even
realizing it, by watching sports on TV.
Then, the article goes into subsequent sections that describe the
quadratic implications in each sport, including football, basketball, and
baseball. The way this was broken down
really helped to connect existing knowledge and ideas about how these sports
worked with the new mathematical concepts behind them, introduced in the
reading. Overall, it was very clear and interesting to read.
As a teacher, there are many things to analyze about this
reading that pertain to classroom use.
The key concept here is the application of quadratic function in
different sports. This is a very useful
connection to use to build student engagement, interest, and buy-in during this
lesson. Although the article does
describe each sport briefly to the point where unfamiliar individuals would
understand, I believe having some background knowledge of these sports will be
crucial in building deeper connections.
This is something to consider when selecting this reading. To be most effective, this reading should be
selected when the teacher knows student interests and sports applications apply
to them. When it comes to figurative
language, voice, and other stylistic features, the text is very straightforward
and informational. The information is
presented clearly and in a simplistic manner.
The purpose of this article is primarily to inform, with areas of interpretation
and analysis. It feels like this text is
designed for mid-range high school students.
I think this due to the fairly simplistic nature of the text. It is very brief, direct, and clear in
explanations, and sentence structure seems mostly straightforward without any
confusing phrasing or wording. The article is published by a university
website. The text is organized in the format of sections with headings. This breaks the text up into manageable parts
with a clear purpose in each section. There
is one image included in the web version of the article, accompanied by a video
that narrates the article along with some animations. In the process of adapting this into a
handout format for classroom use, I also took some screen grabs from the video
and placed them with the appropriate text section to add more graphic
support. If possible, this reading could
be administered online if students have access to a device. This way, students can use the video to
listen while they follow the text, or they can watch the animations to improve
understanding.
The strategy I used was called photographs of the mind. This strategy is based around the idea of
having students stop at designated points in the reading to sketch their
visualizations of the text (McLaughlin, 2015).
I feel as though this could be a great way for students to really think
about the shapes and scenarios the article describes. I tried this strategy when I read the article
online, with just the very basic image of a quadratic, not with any sports
embedded. I stopped to draw
visualizations for each of the three sports the article mentioned. Having to read, and then create a picture
from the text that was given forced me to really re-read and understand the
details given in the text so I could draw the image properly. When I went back and viewed the video to
realize there were animations of each sport with the mathematical models, I
compared these to my pictures and they were very similar. I think this would be a highly beneficial
strategy for this specific article due to the graphical nature of this
concept. Understanding how the text and
formulas relate to the image produced is a fundamental concept of quadratics,
and I think this strategy develops that.
Thinking to what an actual class would look like, I think it would be a
great experience for students to actually read this article without the sports
graphics I included from the video. I
think I would have my students read just the text with just the first image,
and then during each “pause” to sketch, I could incrementally show the video
animation for that section so students can compare the model with their
visualization and clear up any understanding issues. This would also help to create a really
blended learning experience of reading, drawing, and watching an animation,
where the reading can be broken down into manageable chunks. The more I practiced with this strategy, the
more cool ideas and alterations I thought of to make this a really neat and
involved activity for students. I think
this strategy with this particular text has the capability of creating an
excellent learning environment by getting students to really dive deep into
this reading to engage and comprehend at a higher level. This article and strategy also have some
deeper connections with the basis of constructivism, which is the theory that
meaningful learning occurs when students make connections with prior knowledge
and personal experiences (McMillan, 2015).
The fact that this application could be so closely connected to
something students see and do in their daily lives can make the reading and the
concept as a whole so much more meaningful, to which they will be more
interested and more likely to engage with the content. Especially in mathematics, building these
types of connections to sometimes seemingly distant content is so important in
creating an environment for successful learning.
References
McLaughlin, M. (2015). Content area reading:
Teaching and learning for college and career
readiness (2nd ed.). Pearson.
Caitlin,
ReplyDeleteRight from the get go I was interested and engaged in your post due to its relation with sports. I instantly thought of my high school physics class and how my teacher would always use the same idea to model or explain different laws or concepts. This idea goes back to getting to know your students in order to choose material that pertains to and interests them. It was interesting to hear you say the more you went through the strategy the more ideas you thought of in reference to how to shape the lesson and perform it. I think students would experience the same phenomena here, they may be reluctant to sketch at first and worry that their ideas are wrong. The more they take part in an exercise like this the better they will feel and take away from the experience. As always, there will be the few who are extremely reluctant to sketching or taking part in the strategy, how would you plan on dealing with these few?
I think this strategy is very powerful, and I remember I used this strategy when I took advanced math back in college. I looked at the professor writing a lot of stuff and a lot of functions on the board. While he was writing those strange formulas, I immediately stopped reading his stuff and I tried to sketch those functions mentally. Once I was able to depict the shape of those functions in my mind, I continue reading the stuff on the board. This strategy perfectly works for ELLS and non-ELLS students regardless of, because it is a powerful strategy for making mental images while the students read. First and foremost, I would not use the word “reluctant” probably the student wants to participate in this task but for some reasons he or she is not able to do take part in the strategy. So, it is important that teacher knows his or her students strengthens and weakness when it comes to reading and writing. Just to give you an example, I was given some task, back in high school, but sometimes I was not able to elicit a feedback immediately not because I did not want to but because it took me a little bit more time as an English language learner to process the task and get able to provide a feedback. I asked the teacher kindly to give me some extra minutes to respond. If a ELL student is “reluctant” perhaps the teacher can give student the text both in English and Spanish, or perhaps select a text that suits the student better. In sum, I would start by explain to my students that this strategy is not about drawing pretty pictures, and all they must do is a quick sketch of what they visualized. So, by creating mental images students can better comprehend, remember and analyze what they read.
ReplyDeleteHi Caitlin,
ReplyDeleteI said this will your group's article last week, but I really wish I had math teachers who would explain the purpose and importance of mathematics with real-world examples like these. Super cool! I did a similar reading comprehension strategy this week. It was called 'gallery walk' and I think that the main difference is that students make poster-sized sketches as they read in small groups, then do a gallery walk to compare ideas. I could see myself using each strategy for the same assignment in different classes, depending on the level of behavioral issues in each class. Were you familiar with all three of the sports highlighted in the article/video before reading? I was an arts student growing up, and I could see myself getting confused or discouraged if I didn't understand the examples. If you did personally know about all the sports mentioned in the articles/videos, how would you help students who needed assistance with this activity? Thanks. Great job!