makerPBL - Projecting Parabolas

Quadratic Blindness: Students will be asked to collect data, they are required to take or record at least 10 sites/events that involve quadratics around them. If students have no idea what a quadratic is they may have to do a little research on their own first. Then students will report their findings and watch a video on how Quadratics are used in careers.

Class Activities

• PHET simulations (at least 9 activities)
• Investigating graphs of Quadratic Functions
• Desmos- creating quadratic functions
• Angry Birds- projection of an object
• Spring Board textbook

Station Activities 

• Solving real-world quadratic problems 
• Spot it: Pinterest activity
• Foldable and flowcharts
• Students will build a catapult to place a particular object into a specified area

Workshops

• These will be driven by using Nearpod and/or Educreation. Online/apps that can be used to address student learning, re-teaching components of how to solve quadratic function.

 

Guidelines:

How might we, as structural engineers, design and use a 3D model of a parabola, to derive the corresponding quadratic equation?

You are turning in 2 things by the end: 

1. Product (created in e-lab)

2. Analysis and Student Reflection

Here are the following guidelines:

• Your product
• Must include a product YOU created from tools in the elab.  
• If you are using wood simply drawing something on a piece of wood and cutting it out with the scroll saw is not acceptable; if you are using the 3-D printer simply dropping and dragging pre-created items is not acceptable; BE CREATIVE
• You must submit an analysis after you finish your product
• Typed, 12 times new roman, double spaced, 100 word min. Or neatly written
• Things to touch upon
• Drawing of your product on a coordinate plane
• Identify at least 5 points that is a solution to the graph.
• Depending on your graph, label each of the following on your graphs:
• Quadratics- find vertex, x and y intercepts, AOS, identify maximum/minimum points, write equation in standard form, vertex form, and factored form.
• Polynomials- x and y intercepts, identify absolute maximum/minimum points, identify relative maximum/minimum points, write the equation in standard form, identify the increasing and decreasing intervals

Student Reflection:

• What changes could be made to improve the product if it had to be done again.
• What challenges were faced when creating the products



SUBMISSION: Products will be placed on display in room during class, analysis, and student reflection will be turned into teacher by _____.