Moving Systems: Mint Racers Race Team Members : Audrey and Sanjay.

Slides:

Advertisements

Similar presentations

Go speed racer! Challenge #2: Design the most energy efficient car

Advertisements

THE GREAT EGG DROP Kate Quemard Lauren Hatswell Colin Hartley Denise Sullivan

Distance Car #1 Traveled in cm Distance Car #2 Traveled in cm Without washers 1 washer 2 washers 3 washers 1.Use a PENCIL to mark the spot the.

Cars: Engineering for Efficiency Day 1. Why do engineers want to design energy-efficient cars?

Renewable Energy Revolution Solving the worlds energy crisis.

Shawnee Mission School District Science Fair. Speed.

Welcome (back) to the STEM PLC Presented by Joanna Epstein and Paul Carpenetti.

Team Problem Solving Activity

Balloon Powered Race Cars. Objectives to create a balloon powered race car for maximum speed and distance to incorporate Newton's Laws of Motion to learn.

 Key Learning ◦ Energy can be transferred through a mechanism to perform a given task.  Unit Essential Question ◦ How can energy be transferred from.

WHAT MAKES A BOAT FLOAT? DO NOW: ANSWER THIS QUESTION IN YOUR NOTEBOOKS.

Written by Sony Gala. ENGR-II-2: Students will examine the core concepts of engineering and technology. Construct a simple technological system Explain.

Getting Cinderella To The Ball. What are some of the ways Cinderella has gotten to the ball so far?

OUTER SPACE EXPLORATION LCROSS Mission. Mission Overview.

The Egg Drop Challenge Egg Drop Challenge.

Bridge designing Competition Bridge designing Competition Look at these bridges. They are all different. Why is this?

Happy Egg Sad Egg. In this lesson you will use teamwork to design a container that will protect a raw egg as it falls to the ground from a height of 12.

October 09, 2014 Agenda 1.Roll 2.PowerPoint Titled Earthquake Measurement 3.Video “Great Quakes”

Moving Systems: Mint Racers Race Team Members : Will Lena.

Moving Systems: Mint Racers Race Team Members : Jenna and Danny.

Air Power Car Design Challenge. Sir Isaac Newton ( ), English natural philosopher, generally regarded as the most original and influential theorist.

Moving Systems: Mint Racers Race Team Members : Gianna G. Ryan E.

Moving Systems: Mint Racers Race Team Members : Naomi, Ryan, Vicky.

Let’s refresh our memories. Language of the Discipline Force- a push or pull Friction- a force that keeps objects that are touching each other from sliding.

Balloon Powered Race Cars. Objectives to create a balloon powered race car for maximum speed to incorporate Newton's Laws of Motion to use the formula.

Moving Systems: Mint Racers Race Team Members :. The Challenge To design and create a car that will roll down a track at the fastest possible speed. You.

Moving Systems: Mint Racers Race Team Members : Casey & Ella.

Warm Up Activity 1.Pick up a poker chip from the teacher. 2.3 chips per team: 1 white, 1 blue, and 1 red per team. 3.Sit with your team members.

Wind Powered Car Project Due Date : May 13th. On your mark, get set, go!

Moving Systems: Mint Racers Race Team Members : Josh B & Roxy.

How to make the basic car

Team Members: Anjali,Ivy,Tristen

Daily Sponge Thu. Aug. 24 What metric units would you use to measure the length of a spider? What makes a good hypothesis? Which variable do I change.

How to make a wind car! WARNING! What you will need:

Building Challenge: Which team can make the tallest building that can safely hold a chocolate egg? The Linking Network | Margaret McMillan Tower | Princes.

Build a Glider Model - inspired by your paper prototype - create a stronger glider - make with recycled material - use all the glue & tape you want (no.

Welcome to Inc! Week 1.

Lego Robotics Will Schleter 11/12/2018.

Solar Car Project Research solar cars and create a short powerpoint presentation with the following slides: Title Slide with name, date, project Pictures.

Moving Systems: Mint Racers

Rube Goldberg Machine.

3/17 & 3/18 - 7th Grade Agenda Collect HW: Reading & Notetaking p. 153 – 156 Marble Race Lab Chap 8 Test for absent students Textbook Reading 318 – 321.

Everyone needs paper and pencil.

Moving Systems: Mint Racers

Moving Systems: Mint Racers

Moving Systems: Mint Racers

Moving Systems: Mint Racers

Moving Systems: Mint Racers

Puff Mobile Lab Torres Science.

Written by Sony Gala.

Team Members: Shawn, Brett, Tori, And Bella

Tumblebuggy Lab: Part 1 Purpose: to determine the speed of your Tumblebuggy. Procedure: Use a piece of masking tape to mark the starting line for your.

Everyone needs paper and pencil.

Standard I can determine what causes objects to speed up, slow down or change direction Entry Task Go to Pg. 45 – Mouse trap car: Building Day 1 Learning.

Moving Systems: Mint Racers

Moving Systems: Mint Racers

Moving Systems: Mint Racers

Moving Systems: Mint Racers

Team Members: Arabelle, Caleb, Katie, and Lucas

Moving Systems: Mint Racers

Team Members: Holly, Brad, Bella, and James

Moving Systems: Mint Racers

Moving Systems: Mint Racers

Moving Systems: Mint Racers

Balloon Car Race.

Moving Systems: Mint Racers

Team Members: Gabe D, Carter K, Megan A, Isabella S

Moving Systems: Mint Racers

Moving Systems: Mint Racers

Moving Systems: Mint Racers

Presentation transcript:

Moving Systems: Mint Racers Race Team Members : Audrey and Sanjay

The Challenge To design and create a car that will roll down a track at the fastest possible speed. You only have $700 to purchase supplies to construct your car. at

Materials Budget ItemCost per Item Number Purchased Total Cost Lifesaver Mints$753 $225 Straw$100 1 Popsicle Stick$50 1 Masking tape – 12”$50 1 Notebook Card$25 1 Paper Clips$25 1 Total Spent $475

Car 1 Test Results Time1.53 seconds Distance5 feet

Improving our Design Our Goal: Put what we did for the back wheels in the front. Also, trim the wings. With our $200 we purchased: One wheel

Car 2 Test Results Time2.60 seconds Distance10 feet

Design Process Strength Less grinding Future Goal Support on the car(tape)

The Final Race