Driving SCIENCE STEM Activity 7

Slides:

Advertisements

Similar presentations

Driving SCIENCE STEM Activity Race Flag Design Ratios and Proportional Reasoning.

Advertisements

Energy Transformations. You have a tennis ball in your hand. You are holding it at a height of 2 meters 1.Describe what will happen when the ball is dropped.

What is energy? Kinetic Energy.

1 Student Objective Explain how speed of an object relates to the energy of that object. To identify the 2 different forms of energy Warm Up WHY did the.

1 Student Objective Explain how speed of an object relates to the energy of that object. To identify the 2 different forms of energy Warm Up What is energy?

Energy & the Roller Coaster

Welcome To Dover International Speedway Driving SCIENCE Copyright © 2013 Clemson University All rights reserved.

Driving SCIENCE STEM Activity 16 Meeting Constraints.

Unit B 1.3 Acceleration.

Kinetic Molecular Theory Phase diagrams. Engage 1. What inflates the balloon? 2. Where is the gas coming from? 3. Which gas production is a physical change?

Driving SCIENCE STEM Activity 5 Presenting Seatbelt Data.

Driving SCIENCE STEM Activity 15 Presenting Distraction Data.

Driving SCIENCE STEM Activity 2 Setting Up A Data Collection Plan.

P, K, and M Energy Notes.

Kinetic Energy A moving object has energy because of its motion. This energy is called kinetic energy.

ENTRY TASK Get your notebooks Pencil. Target: I can identify the 2 key types of energy.

Driving SCIENCE STEM Activity 3 Displaying Data About Seatbelts Honda Civic-Front 3-Point Seat Belts with Automatic Tensioning System.

Driving SCIENCE STEM Activity 4 Analyzing Seatbelt Data.

Mathematics and Science Partnership (MSP) Colleton County Middle School and Clemson University Department of Mathematical Sciences PDI 2 Professional Development.

Mathematics and Science Partnership (MSP) Colleton County Middle School and Clemson University Department of Mathematical Sciences PDI 2 Professional Development.

Work & Energy Chapter 12 Notes. Work / Work has a specific meaning in science - Work is done when a force causes a change in the position of an object.

8 TH GRADE SCIENCE REPORT PROBLEMS Physical Science.

Box Plots Notes © copyright 2014 – all rights reserved

Day 2: Potential and Kinetic Energy. What is Energy? Anything that can cause a change in matter.

Driving SCIENCE STEM Activity 11 Researching Safe Driving.

Driving SCIENCE STEM Activity 17

Driving SCIENCE STEM Activity 6 Researching Energy.

Test Review. When all __forces _acting on an object are not equal and it will cause a change in the object's motion. And give an example.

Motion and Speed Notes 9-1 & 9-2.  An object is in motion if it changes position relative to a reference point  Stationary objects make good reference.

Driving SCIENCE STEM Activity 18 Collecting Prototype Data.

Kinetic Molecular Theory Phase diagrams. Engage 1. What inflates the balloon? 2. Where is the gas coming from? 3. Which gas production is a physical change?

Friday, Mar. 6 th p. 200, 201. Friday, Mar. 6 th 200 3/6/15 Fri. L.T.: I can analyze the motion of an object through the lens of forces, speed, and energy.

Physics of cars By: Daniel Flores. Lets start with mass Mass is the Amount of matter that is in one object Everyone has mass its just there For example.

Driving SCIENCE STEM Activity 19 Back to the Drawing Board.

OA2.1 Understand energy and its conservation

Driving SCIENCE STEM Activity 9 Making a Presentation.

Driving SCIENCE STEM Activity 12 Setting Up A Data Collection Model.

Distance and Displacement. Procedure Draw a dot at the intersection of two lines near the bottom edge of a sheet of graph paper. Label the dot “Start”.

Unit 5 Lesson 1 What Is Energy?

Force and Motion Laughlin’s Science Class. Motion Motion refers to the change in position of an object over a period of time.

Energy: Machines, Motion and Light Energy exists in many different states. Energy can be transformed from one state to another in order to power machines.

Chapter 9 Motion. Energy Review Kinetic energy is the energy of motion. (moving) A ball rolling down an incline has kinetic energy. Potential energy is.

Agenda : Revise Project if needed by 8/26. Progress reports passed out tomorrow Warm-up – Reread your Cornell notes on page 13. Add at least two additional.

A team of science students must determine if using an inclined plane changes the amount of force required to move an object. What is the best way to determine.

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

 Do Now  Draw an example(s) of an object in motion  Discuss as a class  What types of items did you draw?  Do these items speed up and slow down?

Motion. Where does the car have the most potential energy? a) Between A and B b) Between B and C c) Between C and D d) After D.

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.

Kinetic Energy vs. Potential Energy

Driving SCIENCE STEM Activity 13

Mathematics and Science Partnership (MSP)

6th Science Warm-up & Ticket Out

Agenda 1/2/17 Warm-Up: Teacher Work Day Classwork: HW:

Engineering Design in the Classroom

Do Now Heading: Intro to Graphing Motion

Pre AP/GT Agenda 1/2/17 kleinisd. net/default. aspx

Energy, Motion and Force

Drawing and Examples (2-3) Dictionary Definition

Energy Vocabulary Unit

Unit 5 Lesson 1 What Is Energy?

Speed, Velocity, Acceleration Newton’s Laws of Force and

Drawing and Examples (2-3) Dictionary Definition

An Activity to Review Motion and Design

Unit 5 Lesson 1 What Is Energy?

Day 1 Motion vocabulary SCI 10 Physics.

An Activity to Review Motion and Design

Investigation 7: Potential vs Kinetic Energy

Potential and Kinetic Energy in the real world.

Balloon Car Race.

Describing Motion.

Presentation transcript:

Driving SCIENCE STEM Activity 7 Building A Balloon Car Clemson University Student-Designed Prototype

Building a Balloon Car With your team, follow your design to build a balloon car. Constraints Choose from the provided materials. The length of the straw can be changed. The car should travel at least 2 meters in a straight line. Only one person should blow into the balloon.

Analyzing the Prototype Does the propulsion system make the car go? Does the car travel in a straight line? Does the car travel at least 2 meters? Were requirements in the constraints met?

Potential energy is stored energy. Kinetic energy is motion energy. Writing About Energy In Your Notebooks: Make another drawing of the car, labeling the first design “Before Revisions” and the second design “After Revisions.” Explain in writing the potential and kinetic energy of your balloon car. Potential energy is stored energy. Kinetic energy is motion energy.

Reflection What do you now know about energy and your balloon cars? What successes and issues did your team have in planning and carrying out your design? What changes did you make in your design?

American Honda Foundation DuPont CU-ICAR Safety-Kleen, EcoPower Fluor Thanks to PDI2 partners who sponsored the development of this activity and provided professional development support: American Honda Foundation DuPont CU-ICAR Safety-Kleen, EcoPower Fluor United States Conference of Mayors Thanks to race track partners who provided support for teachers: Darlington Raceway, Daytona International Speedway, Dover International Speedway, Martinsville Speedway, and Richmond International Raceway Copyright © 2015 Clemson University, Clemson, South Carolina (SC).