Difference between revisions of "Unit 4: Creating Concept Activities for the Nspire"

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4) Will the lesson, including the activity, be able to be completed in the class period?
 
4) Will the lesson, including the activity, be able to be completed in the class period?
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===Implementation===
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With all new technology and instructional techniques, you will have bumps in the road. When you first implement that Nspire activities into an actual lesson with your students, I suggest you keep the following in mind:
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*Make sure you know all the necessary skills to complete the activity with your students
 +
*If you get confused during the activity because you can't remember a keystroke or where something is located, don't be afraid to ask your students for help. Your students will learn the Nspire probably more quickly than you so don't be embarrassed if you find yourself asking them for help!
 +
*Make sure your lesson plan is flexible because even though you think an activity will only take 15 minutes, you might run into small problems or questions that will make the activity take more time. On the other hand, you might plan for the activity to take 15 minutes, but the students really understand what is occuring and move through the activity in 10 minutes.
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*Lastly, technology is not perfect. There may be times where batteries run out, the transfer tool doesn't seem to be working right, or the file magically became corrupted! Don't give up on any technology simply because of onekkkkkk
  
 
===End of Course Reflection===
 
===End of Course Reflection===

Revision as of 11:50, 30 November 2010

Back to course outline: Better Understanding of Mathematical Concepts through the Graphing Calculator

Objective: By the end of Unit 4, you should be able to create graphing calculator concept activities to use in lessons.

Sometimes after searching the above links, you may discover the no activity really is exactly what you want. Instead of spending tons of time trying to alter an existing activity, it might be easier to start from scratch.

Example Activity

For example, an activity that is easy to make is one that changes the coefficients of an equation such as absolute value ( y = a| x + h | + k ) by using sliders.

Abs copy.jpg

Here is the worksheet that helps the students use the activity to understand how a, h, and k affect the graph:Media:Absolute_value_worksheet.pdf

Lesson Plan

Now, think of a concept that you think would be better understood by your students if you created an activity with the Nspire. If you feel you need more information about the Nspire or CAS Teacher Edition Software, refer to the reference: [1]

Create a lesson plan that incorporates the Nspire.

Pair & Share

When you have finished, exchange your lesson with a partner electronically including links to download the Nspire files (tns files) and/or worksheets. After partners have reviewed the other’s lessons, discuss the lessons considering the following questions:

1) Does the Nspire activity help to reach the objective of the lesson?

2) Do you think the Nspire activity will help students better understand the concepts in the lesson as opposed to other methods?

3) Does the lesson use the activity in a way that is best? Are the students working individually, in pairs, or is it whole class instruction?

4) Will the lesson, including the activity, be able to be completed in the class period?

Implementation

With all new technology and instructional techniques, you will have bumps in the road. When you first implement that Nspire activities into an actual lesson with your students, I suggest you keep the following in mind:

  • Make sure you know all the necessary skills to complete the activity with your students
  • If you get confused during the activity because you can't remember a keystroke or where something is located, don't be afraid to ask your students for help. Your students will learn the Nspire probably more quickly than you so don't be embarrassed if you find yourself asking them for help!
  • Make sure your lesson plan is flexible because even though you think an activity will only take 15 minutes, you might run into small problems or questions that will make the activity take more time. On the other hand, you might plan for the activity to take 15 minutes, but the students really understand what is occuring and move through the activity in 10 minutes.
  • Lastly, technology is not perfect. There may be times where batteries run out, the transfer tool doesn't seem to be working right, or the file magically became corrupted! Don't give up on any technology simply because of onekkkkkk

End of Course Reflection

1) Do you feel comfortable incorporating the Nspire into your lessons? Explain.

2) Do you feel incorporating the Nspire into your lessons will be beneficial to your students? Explain.

3) Do you feel comfortable locating existing activities online or creating your own Nspire activities?

4) What concepts do you see yourself using the Nspire to help students better understand?

5) What additional skills and/or resources do you wish you had receive in this course to better help you incorporate the Nspire into your lesson plans to improve student understanding?


Back to the course outline: Better Understanding of Mathematical Concepts through the Graphing Calculator