{"id":31151,"date":"2016-09-22T17:02:12","date_gmt":"2016-09-22T22:02:12","guid":{"rendered":"http:\/\/blogs.ams.org\/mathgradblog\/?p=31151"},"modified":"2016-09-22T17:02:12","modified_gmt":"2016-09-22T22:02:12","slug":"applying-inquiry-oriented-approach-teaching-math-courses","status":"publish","type":"post","link":"https:\/\/blogs.ams.org\/mathgradblog\/2016\/09\/22\/applying-inquiry-oriented-approach-teaching-math-courses\/","title":{"rendered":"Applying the Inquiry-Oriented Approach in teaching Math Courses"},"content":{"rendered":"

The Inquiry-Oriented (IO) Approach and Advanced Mathematical Thinking (AMT) processes play an important role in improving undergraduate math education. IO approach and AMT processes act as a new movement of modern math education based on the methods used in math high school education and lower-division courses of calculus. Several published research papers talked about the Inquiry-Oriented Approach as a process that is pretty similar to any process of the Advanced Mathematical Thinking which combines both teacher activity and student activity, and they interact with each other to form what is known as inquiry process. <\/em><\/p>\n

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According to the An Inquiry-Oriented Approach to Undergraduate Mathematics <\/em>research paper in the Journal of Mathematical Behavior<\/em>, Kwon and Rasmussen (2007) talk about the Inquiry-Oriented Differential Equations project as a collaborative effort to improve the undergraduate math education and to study how undergraduate math can draw on the theoretical and instructional advances initiated at the K-12 level as well as to create and sustain learning environment for powerful student learning. While there are several reasons for the initiation of the Inquiry-Oriented Differential Equations project such as the huge number of math departments at universities and colleges, the increase of student body diversity, and the decline in the number of math majors as mentioned by Kwon and Rasmussen, universities and community colleges need to implement this project as a fundamental way of improving the undergraduate math curriculum in general and differential equations curriculum in particular because this project can encourage the useful interaction between teacher and student through class activities and discussions in order to enable the teacher to measure the student mathematical thinking and how the teacher can form a new way of thinking based on what the student thinks.<\/p>\n

In addition, Kwon and Rasmussen (2007) discuss several various characterizations of inquiry process in different research communities, for example, in general, inquiry can be identified as a set of assumptions using critical and logical mathematical thinking and considering alternative mathematical explanations, while in the philosophy of mathematics education, inquiry can be defined as the ability to learn how to speak and act mathematically, participate in mathematical discussions, pose conjectures, and solve new or unfamiliar math problems. I totally agree with all those different characterizations of inquiry process because they are located under the title of how teacher inquiry into student mathematical thinking.<\/p>\n

For example, when I taught Calculus II <\/em>in Fall 2015, I implemented this inquiry process using tools in\u00a0my math book: A Friendly Introduction to Differential Equations <\/em>because in my\u00a0Calculus II <\/em>class, there were\u00a0some topics that are also relevant to\u00a0differential equations such as finding the general solution of differential equations using the separable method. When an abstract topic in Calculus II <\/em>such as partial fraction decomposition came up, I asked\u00a0my students to think about a method that can save time and might\u00a0solve fifty percent of partial fraction decomposition problems. Some students told me that there are no other methods to avoid solving systems of linear equations to find the required constants while others started giving me assumptions and suggestions about possible methods of doing partial fractions decompositions. In this situation, the students are learning how to mathematically investigate\u00a0other methods built on their assumptions and suggestions and I encourage them\u00a0to creatively think about that mathematical problems in search of solutions.<\/p>\n

There are several advantages of applying the inquiry approach in our math classes such as differential equations and its positive effect on the improvement of teaching and learning is one of the fundamental goals that we are looking for in our math classes. We want to provide our students with the tools for successful advanced mathematical thinking processes and the methods of reinventing mathematical ideas and implementing IO and AMT has been a successful way for me to do just that.<\/p>\n

References<\/p>\n

Kaabar, M. (2015, January 5). A Friendly Introduction to Differential Equations.\u00a0Printed by CreateSpace, San Bernardino, CA<\/em>,\u00a0http:\/\/www.mohammed-kaabar.net\/#!differential-equations-book\/cuvt<\/a>.\u00a0Accessed on August 29, 2016.<\/p>\n

Kwon, O., & Rasmussen, C. (2007). An Inquiry-Oriented Approach to Undergraduate\u00a0Mathematics. Journal of Mathematical Behavior, 26<\/em>(1), 189-194.<\/p>\n

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The Inquiry-Oriented (IO) Approach and Advanced Mathematical Thinking (AMT) processes play an important role in improving undergraduate math education. IO approach and AMT processes act as a new movement of modern math education based on the methods used in math … Continue reading →<\/span><\/a><\/p>\n

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