LIVE INTERACTIVE YOUR DESKTOP October 24, 2011 Center of Mass and Center of Pressure: Engineering a Stable Rocket Presented by: Rachel Power
NASA Explorer Schools Presents
Outline for Web Seminar Navigating the Guide Navigating the Activity Building a Launcher Building a Rocket STEM Concepts Additional Resources
explorerschools.nasa.gov
Table of Contents A Pictorial History of Rocketspg 1 How Rockets Workpg 19 Applying Newton’s Lawspg 24 National Standards Matrixpg 31 Suggested Grade Levelspg 33 Additional Explorations pg 140
Which civilization is credited with the first recorded use of rocket propulsion? A. Chinese B. Russian C. Greek D. German
A Pictorial History
How Rockets Work
Applying Newton ’ s Laws
National Standards Matrix
Suggested Grade Levels
Let’s Pause for Questions Please type your questions in the chat!
Teacher Pages
Student Pages
Calculating Area
Let’s Pause for Questions Please type your questions in the chat!
High-Power Launcher Low cost Parts in plumbing or hardware stores Easy to assemble and use Bicycle pump or air compresso r
Shopping and Assembly
Pop! Rocket Launcher Minimal cost Even easier to assemble and use Parts at plumbing or hardware stores
Shopping and Assembly
Which type of launcher do you plan to use? A. High-power launcher B. Pop! rocket launcher C. Undecided
Safety Plan and Tips
Let’s Pause for Questions Please type your questions in the chat!
Making Basic High-Power Paper Rockets
EngineeringDesignProcess
Materials
Assembly
Let’s Pause for Questions Please type your questions in the chat!
Sounding Rockets
Forces on a Rocket weight thrust drag lift
Rocket Stability center of pressure center of gravity
x For simple shapes: Balance rocket using a string or an edge such as your finger or meter stick For simple shapes: Balance rocket using a string or an edge such as your finger or meter stick Finding Center of Gravity
For more complex shapes: Hang the rocket from some point Drop weighted string from point Draw line on rocket along string Repeat from another point Find the point of intersection For more complex shapes: Hang the rocket from some point Drop weighted string from point Draw line on rocket along string Repeat from another point Find the point of intersection x Finding Center of Gravity
x Trace the shape of rocket on cardboard Cut out the shape Determine the balance point Trace the shape of rocket on cardboard Cut out the shape Determine the balance point Finding Center of Pressure
c g W = w n d n + w b d b + w f d f W = w n + w b + w f W = w n + w b + w f c g W = w n d n + w b d b + w f d f W = w n + w b + w f W = w n + w b + w f Mathematical Approximation Center of Gravity
c g = w n d n + w b d b + w f d f c g = w n d n + w b d b + w f d fW W Mathematical Approximation Center of Gravity
Mathematical Approximation Center of Pressure c p A = a n d n + a b d b + a f d f A = a n + a b + a f A = a n + a b + a f c p A = a n d n + a b d b + a f d f A = a n + a b + a f A = a n + a b + a f
c p = a n d n + a b d b + a f d f c p = a n d n + a b d b + a f d fA A Mathematical Approximation Center of Pressure
Let’s Pause for Questions Please type your questions in the chat!
Rocket Wind Tunnel
Launch Altitude Tracker
Additional Explorations Calculating Altitude
Advanced High-Power Paper Rockets
Collaboration
Feedback
Let’s Pause for Questions Please type your questions in the chat!
Thank you to the sponsor of tonight's Web Seminar: This web seminar contains information about programs, products, and services offered by third parties, as well as links to third-party websites. The presence of a listing or such information does not constitute an endorsement by NSTA of a particular company or organization, or its programs, products, or services.
National Science Teachers Association Dr. Francis Q. Eberle, Executive Director Zipporah Miller, Associate Executive Director Conferences and Programs Al Byers, Assistant Executive Director e-Learning LIVE INTERACTIVE YOUR DESKTOP NSTA Web Seminars Paul Tingler, Director Jeff Layman, Technical Coordinator