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INITIATE Lesson Plans

INtroduction

Project Based Learning听

PBL is student-centric and incorporates activity theory as it helps students find solutions to meaningful questions about the world around them. It is supported by technology and collaboration. Typically, a driving question is used to frame the curriculum and drive inquiry. In traditional mathematics classes, students are taught theoretical concepts then asked to apply those concepts to solve problems, which in most cases are not connected with real world activities. PBL satisfies mathematics and science standards by including extensive use of student-directed inquiry and exploration to address a complex topic or problem and shifts responsibility for learning to students. PBL in math results in better student learning outcomes than traditional methods, and raises students鈥 interests in math.听

PBL results in high levels of student engagement, improved critical thinking and problem-solving skills, and improved collaborative skills. It has shown to increase student achievement, is more effective when teaching STEM subjects, is more effective in creating long-term retention of concepts, and improves students鈥 ability to integrate and explain concepts than traditional teaching methods.听

PBL components

Elements of PBL

ComputaTional Thinking

One of the pillars of this grant is to make high school students better at Computational Thinking. It helps in solving complex problems or approaching it from a different perspective. It听involves logic, assessment, patterns, automation, and generalization for solving a posed problem.听To guide professional development using PBL these lesson plans aim to make grade 9-12 science teachers capable of integrating Computational Thinking into their teaching. Activities using the GoPiGo is used as a mechanism to engage 听students from grades 9-12 and incorporate computational thinking in their curriculum.

INITIATE'S PROJECT

INITIATE combines multiple theories (the fusion of activity theory, social constructivist learning theory, and project-based learning) to form its conceptual framework or approach to address this concern.听The Overarching Driving Question听of the project听stands as 鈥淗ow will autonomous vehicles affect people with disabilities in our society?鈥.听Various types of lesson plans were designed to address different听aspects of this question. The structure of this project along with the lesson plans is given below.

Lesson Plans

OVERARCHING DRIVING QUESTION

How will autonomous vehicles affect people with disabilities in our society?

These lesson plans give us an idea on how PBL can be implemented in the classroom.
  1. Sub-question 1:听听What are the demographics and needs of people with disabilities in Toledo?
    1. Demographics
    2. Who makes up this population
    3. What听are the transportation needs of people with disabilities?
    4. How can paratransit services be improved by using autonomous vehicles?
  2. Sub-question 2:听听听What routes need to be planned in Toledo?
    1. Investigations for Designing Routes
    2. Investigations for the Smart Car
    3. Designing a route for Autonomous Paratransit Service

  3. Sub-question 3:听 听How can we make smart cars safer and more convenient for the people with disabilities in our society?

    1. Cybersecurity - Matrices
    2. Cyber attacks on AVs
    3. The Deer Problem
  4. Sub-question 4:听 听Can smart buses meet the needs of the population with disabilities?
    1. Speed Maintenance
    2. Rotating Distance Sensor
    3. Functions in Bloxter
  5. Sub-question 5:听听How听will attractions like the Toledo Zoo use smart car technology for people with disabilities?
These lesson plans give us an idea on how PBL can be implemented using online tools and without meeting in-person.听
  1. Sub-question 1:听听What are the demographics and needs of people with disabilities in Toledo?
    1. Demographics
    2. Who makes up this population
    3. What听are the transportation needs of people with disabilities?
    4. How can paratransit services be improved by using autonomous vehicles?
  2. Sub-question 2:听听听What routes need to be planned in Toledo?
    1. Investigations for Designing Routes
    2. Investigations for the Smart Car
    3. Designing a route for Autonomous Paratransit Service

  3. Sub-question 3:听 听How can we make smart cars safer and more convenient for the people with disabilities in our society?

    1. Cybersecurity - Matrices
    2. Cyber attacks on AVs
    3. The Deer Problem
  4. Sub-question 4:听 听Can smart buses meet the needs of the population with disabilities?
    1. Speed Maintenance
    2. Rotating Distance Sensor
    3. Functions in Bloxter
  5. Sub-question 5:听听How听will attractions like the Toledo Zoo use smart car technology for people with disabilities?