Template:Course Case Studies/doc

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The Course Case Studies project attempts to capture stories of teaching and learning at UBC, especially teachers that are trying something new in their teaching.

The Course Case Studies templates are a series three templates that were designed to used separately for embedding in various sites as well as transcluded together in the UBC Wiki. It is comprised of the following:

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{{Template:Course_Case_Studies/Course_Details | Instructor Name = Shona Ellis | Instructor Title = Associate Head of Biology | Department = Biology | Faculty = Science | Course Code = BIOL 210 | Course Name = Introduction to Vascular Plants | Term Offered = 2013 Winter | Mode of Delivery = Face to Face | Class Size = 130 }}

{{Template:Course_Case_Studies/Course_Summary | Context = I teach the first half of BIOL 210, plant anatomy, which I personally think is fascinating, but for most students it is kind of dry. We cover cell types, tissues, and organ systems as well as primary (herbaceous) to secondary (woody) growth in plants. | What do students need to learn? = They essentially learn how plants are put together into tissues and tissue systems, and how they grow to give rise to their final form. Students must understand basic components (cells types and tissues), which requires lots of memorization and is terminology heavy. They use these building blocks to explain how secondary structure of a plant is achieved. Not only do they need to understand basic anatomy, but they must incorporate principles of differentiation (morphogenesis) and visualize this process in three dimensions. | What has been your approach to teaching? = The approach has been to present the organization of the primary structure and then initiation and establishment of secondary growth in the root system through reading, online animation, and lecture. While the fundamental processes are similar in roots and stems, there are differences in anatomy so having them revisit the concepts when we discussed stems should have helped reinforce and deepen their understanding. This was done through student discussion and participation. However, when asked related questions on the midterm it has been apparent that many students did not actually get it. | What approach are you experimenting with? = | What are students learning? = | What are you learning? = }}

{{Documentation:Learning_Principles_&_Strategies/Discussion_Questions}}

Course Details

Shona Ellis

Associate Head of Biology

Biology

Faculty of Science


Course Code: BIOL 210

Course Name: Introduction to Vascular Plants

Term Offered: 2013 Winter

Mode of Delivery: Face to Face

Class Size: 130


Summary

Context: I teach the first half of BIOL 210, plant anatomy, which I personally think is fascinating, but for most students it is kind of dry. We cover cell types, tissues, and organ systems as well as primary (herbaceous) to secondary (woody) growth in plants.

What do students need to learn? They essentially learn how plants are put together into tissues and tissue systems, and how they grow to give rise to their final form. Students must understand basic components (cells types and tissues), which requires lots of memorization and is terminology heavy. They use these building blocks to explain how secondary structure of a plant is achieved. Not only do they need to understand basic anatomy, but they must incorporate principles of differentiation (morphogenesis) and visualize this process in three dimensions.

What has been your approach to teaching? The approach has been to present the organization of the primary structure and then initiation and establishment of secondary growth in the root system through reading, online animation, and lecture. While the fundamental processes are similar in roots and stems, there are differences in anatomy so having them revisit the concepts when we discussed stems should have helped reinforce and deepen their understanding. This was done through student discussion and participation. However, when asked related questions on the midterm it has been apparent that many students did not actually get it.

What approach are you experimenting with?

What are students learning?

What are you learning?


Discussion Questions

Read over the research informed 7 Principles of Learning suggested by the Eberly Center for Teaching at Carnegie Mellon University. After you have done so, we ask you to reflect on the questions below.

  1. What learning principle[s] are at play?
  2. What strategies might be used to support learning and why?
  3. What would you want to investigate further?