# Difference between revisions of "Data Tracking while Enhancing Student Engagement and Understanding"

Martinb354 (talk | contribs) |
Martinb354 (talk | contribs) |
||

Line 11: | Line 11: | ||

Learners will consist of secondary education mathematics teachers from both public and private school backgrounds. They will be familiar with the Common Core Standards in New York State. Learners will be motivated to learn this material in order to benefit their students academically as well as provide them with engaging and informative lessons for both student and teacher. Not all secondary education mathematics teachers are aware or trained in integrating technology into their classes, nor are they aware of the data that can be retrieved. When teachers integrate technology into their classrooms they are creating a more engaging learning environment for their students. "Calculators and computers are potential tools to enhance students’ understanding and learning of mathematics" (Akcay, 2017, p.163). Through this technology, it continuously tracks student’s involvement and allows for student-teacher and student-student conversation and scaffolding. At the end of a lesson through these technologies, teachers can quickly look through the retrieved data to gauge student understanding. Adams (2016) states that "the use of curriculum-based measurement (a type of general outcome measure) within the framework of curriculum-based evaluation (a type of mastery monitoring) can improve the math achievement of students" (p.6). It becomes more of a project-based learning where students take the front seat to their own learning and teachers can take the back seat and provide supports where/when needed.<br /> | Learners will consist of secondary education mathematics teachers from both public and private school backgrounds. They will be familiar with the Common Core Standards in New York State. Learners will be motivated to learn this material in order to benefit their students academically as well as provide them with engaging and informative lessons for both student and teacher. Not all secondary education mathematics teachers are aware or trained in integrating technology into their classes, nor are they aware of the data that can be retrieved. When teachers integrate technology into their classrooms they are creating a more engaging learning environment for their students. "Calculators and computers are potential tools to enhance students’ understanding and learning of mathematics" (Akcay, 2017, p.163). Through this technology, it continuously tracks student’s involvement and allows for student-teacher and student-student conversation and scaffolding. At the end of a lesson through these technologies, teachers can quickly look through the retrieved data to gauge student understanding. Adams (2016) states that "the use of curriculum-based measurement (a type of general outcome measure) within the framework of curriculum-based evaluation (a type of mastery monitoring) can improve the math achievement of students" (p.6). It becomes more of a project-based learning where students take the front seat to their own learning and teachers can take the back seat and provide supports where/when needed.<br /> | ||

− | |||

− | |||

=== '''Performance Objectives''' === | === '''Performance Objectives''' === |

## Revision as of 19:09, 17 April 2019

**Course Overview**

**Purpose**

The topic of this course is to integrate technology into the mathematics classroom as a way to engage adolescents in their own learning as well as provide constant learner data for the instructor. Many teachers encounter students who dread their specific subject of choice. In today’s age, it is known that students’ lives revolve around technology, specifically cell phones, and the need and want to be constantly connected. Teachers can use this idea to their advantage by incorporating multiple technology-based sources into their everyday teaching which allows for a constant connection between learners and instructors.

**Assessment of Learner Needs**

Learners will consist of secondary education mathematics teachers from both public and private school backgrounds. They will be familiar with the Common Core Standards in New York State. Learners will be motivated to learn this material in order to benefit their students academically as well as provide them with engaging and informative lessons for both student and teacher. Not all secondary education mathematics teachers are aware or trained in integrating technology into their classes, nor are they aware of the data that can be retrieved. When teachers integrate technology into their classrooms they are creating a more engaging learning environment for their students. "Calculators and computers are potential tools to enhance students’ understanding and learning of mathematics" (Akcay, 2017, p.163). Through this technology, it continuously tracks student’s involvement and allows for student-teacher and student-student conversation and scaffolding. At the end of a lesson through these technologies, teachers can quickly look through the retrieved data to gauge student understanding. Adams (2016) states that "the use of curriculum-based measurement (a type of general outcome measure) within the framework of curriculum-based evaluation (a type of mastery monitoring) can improve the math achievement of students" (p.6). It becomes more of a project-based learning where students take the front seat to their own learning and teachers can take the back seat and provide supports where/when needed.

**Performance Objectives**

At the end of this course, learners will be able to:

- Identify instructional strategies that work best for individual students through online provided data which measures individual student understanding

- Develop data-driven lessons that can either review previously taught material or begin to move forward with upcoming material through the use of technology mediums and the use of rubrics and self-evaluation

- Execute scaffolding and supports through the Khan Academy and Desmos mediums to enhance student understanding both in and outside of the physical classroom

**Course Units**

This mini-course includes the following units. Click the title of a unit to go to its page.

### Unit 1: Introduction to Integrating the Web into the Math Classroom

Target Objectives:

- Choose an individual student and identify one instructional need that may be benefited by the use of technology in the classroom
- Identify instructional strategies that work best for this individual student through online provided data which measures student understanding

Activities:

- Survey
- Reading and Response
- E-Lecture
- Reflection

### Unit 2: Using Khan Academy and Desmos

Target Objectives:

- Execute scaffolding and supports through the Khan Academy and Desmos mediums to enhance student understanding
- Become comfortable with the use of these mediums in the classroom
- Gauge student understanding through technology provided data
- Identify which medium works best for your classroom and enhancing student engagement

Activities:

- E-Lecture (Videos, Images)
- In-Service Practice Activity
- Reflection/Evaluation Activity

### Unit 3: Create Your Own Technology Integrated Math Lesson

Brief Overview

**Extended Resources**

Adams, D. L. (2016). Action research on the effectiveness of khan academy as a tier I intervention. *The School of Education, Health and Society and Department of Educational Psychology.* Retrieved from: https://etd.ohiolink.edu/!etd.send_file?accession=miami1466588390&disposition=inline

Akcay, A. O. (2017). Instructional technologies and pre-service mathematics teachers’ selection of technology. *Journal of Education and Practice. 8(7).* pp. 163-173.

Explore math with Desmos. (n.d.). Retrieved from https://www.desmos.com/

Khan Academy. (n.d.). Retrieved from http://www.khanacademy.org/