Robby Amanda Krista Alan Oh yea, that’s Patrick Final Team Project, EF 151 “The contraption that will open your cellular device”

Slides:

Advertisements

Similar presentations

BY: PATRICK LE ACE SHAIKH TREY BROWN DEVIN JUSTICE Going up?

Advertisements

Our Rube Goldberg Mechanism

ConcepTest Clicker Questions College Physics, 7th Edition

© 2005 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.

© 2005 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.

Work and Energy Conceptual MC

14 1) the same 2) twice as much 3) four times as much 4) half as much 5) you gain no PE in either case Two paths lead to the top of a big hill. One is.

Physics 7C lecture 13 Rigid body rotation

The Rube Goldberg Project -Operation Hamster Gate- Engineering 100 University of Washington 11/7/03 Team Members: Alex Georgescu Steve Lee Dan Miller Aaron.

Surface Gravity Objects on the Moon weigh less than objects on Earth This is because surface gravity is less –The Moon has less mass than the Earth, so.

Doc Brown and the crew Presents The flux capacitor Joshua jefferies Isaak Samsel Austin Bootin Jesse dowdy.

Notepad Books Bottle with eraser attached Cotton Twine & Thread.

GROWING UP GOLDBERG FROM BOARD GAME TO EF 151 Team: Wesley King, Josh Elam, Kelsey McCoy THEN NOW.

Physics 6A Work and Energy examples Prepared by Vince Zaccone For Campus Learning Assistance Services at UCSB.

1 Simple Machines 2 Types of Simple Machines: lever gear ramp wheel pulley.

Don’t Let Granny Break A Nail! A Rube Goldberg device that opens a tea box.

RUBE GOLDBERG Allen Huang Peter Laciano Kevin Shi T-Pak Attack.

EF 151 Final Project Rube-Goldberg device. Our Team Mitch Groothuis Mitch Groothuis Kelly Bradshaw Kelly Bradshaw Ryan Hopson Ryan Hopson James Burrell.

The Sandtrap By: Austin Rider Jennifer Godbold Kyle Woods Stephen Yontz.

Team E.B.4.H. Lil Woody. Team Members Remy Devoe Jordan Sprouse Jeff Dix Ryan Beeler.

Brian Rosloniec, Adeline Powers, Preston Childress, Trevor Martin.

The Candy Machine Amanda Bowen Elizabeth Kennedy ZZ Hoch.

By: Dominic Stone Bret Shelton Matt Stout Chandler Odom.

Jack Whitehead Nathan Muller John Riser Jonathan Wood.

The Snooze Hitter Jackie AnthonyAmanda Arnie Final Team Project-EF 151.

Energy Conversion Team Project 4: EF 151. Group Members: Axl Rose Frank Ferrer Ron Thal Dizzy Reed Robin Finck.

Rube Goldberg Device: THE SLINGSHOT BANDIT By Tim Reed, Andrew Burks, Alan Hancock and Kevin Reed.

Flushed!!! By: Michael Jackson and The Jackson 5.

Is it possible to do work on an object that remains at rest? 1) yes 2) no 1. ConcepTest 6.1To Work or Not to Work 1. ConcepTest 6.1 To Work or Not to Work.

Lightweight! Stewart Chase Jordan Nguyen Elliott Steen Ben Word the.

Our Rube Goldberg Device The Christmas Card Opener.

Ashley Thomas Alex James Matt Pierce Justin McDermott.

Ch. 13 Work and Energy. Warm Up ( ) Explain what work and energy mean in terms of science.

It’s a Photo Shoot Because taking a picture is just to hard Lanier Loftin Matthew Harrell Darius James Austin Lee.

The RG Stamper Team: Sean Meek Ryan Ray Mike Higgins Steven Stokes.

Team Members Jonathan Coplon Charles Gregory Scott Hedrick Colin Sandidge Corey Turpin.

HANDS-ON ACTIVITY: POWER, WORK AND THE WATERWHEEL CONTRIBUTED BY: INTEGRATED TEACHING AND LEARNING PROGRAM AND LABORATORY, UNIVERSITY OF COLORADO AT BOULDER.

One Call MISSEDMISSED Brian Plaag Angie Guinn Taylor Locke Ivey Barnes EF 151 Team Project 3.

Boot Scoot Bogey Team Members: Brad Chase Matt Hawkins Stuart Boyce 1.

Team Vortex Hogan Harrell Cooper Bice. Device Design We built our device out of wood and car track. PVC was also used for the rope to go around like a.

Physics Mousetrap lists Hand in Answer questions.

Our team decided on a much simpler approach, using few materials. We mostly collected items from around campus. Our team decided on a much simpler approach,

Homework 2 Unit 14 Problems 17, 19 Unit 15. Problems 16, 17 Unit 16. Problems 12, 17 Unit 17, Problems 10, 19 Unit 12 Problems 10, 11, 16, 17, 18 Unit.

The Math Machine William Grasty James Hunter Austin Jerome Alex Thacker.

Works Over Time Works Every Time Eric Larson Wren Jackson

The Light Bulb! “ Just to let you know you have a good idea”

Cyle Rajasaari Andrew Collins Cody Mitchell Sam Wright

Work Done by a Constant Force

Rube Goldberg Device Group 4

Fixed Pulley An attached simple machine that allows a rope to lift an object by changing the direction of the force pulling on it.

L-9 Conservation of Energy, Friction and Circular Motion

The Frosty Beverage-O-Matic.

By: Vincent McCoy Kathy Erickson Josh Debity Rich Adams

-Tiger's Wood- A Presentation by Team 3.

By Greg Warren, James Bailey, Chris Shapiro, and Josh Luna

Ligyrophobiac Torture

Team Cantthinkofaname

Up, Up & Away (The Great Balloon Launcher)

Katie Peay Anthony Rose David Hudson Brandyn Hoffer

The Liftanator By, Sam, Michael, And Mark.

QuickCheck 5.1 A ball rolls down an incline and off a horizontal ramp. Ignoring air resistance, what force or forces act on the ball as it moves through.

Project by: Amber Thomas Andrea Williams Lindsey Sharp Shayna Chapman

The Collegiate Student Hydration Device

Team A1-2 times 4 The King’s Team

Function Over Fashion Tiffany Sithiphone Wren Jackson Emily Cromer

The Christmas contraption

The Dead Mouse Elevator

Presentation transcript:

Robby Amanda Krista Alan Oh yea, that’s Patrick Final Team Project, EF 151 “The contraption that will open your cellular device”

Project Description A device in which, through a series of energy conversions, allows someone to answer their cell phone hands free. A funnel fills a bottle with water Weight of water pulls down the bottle, which pulls down a string that is attached to the bottle Force from the string that is on a pulley causes the string to lift a board and produce an incline Ball rolls down a path onto a mousetrap Weight of ball causes mousetrap to go off String is tied onto mousetrap that is attached to top portion of the cell phone Force of mousetrap spring’s force on mousetrap bar pulls string Tension force of string causes cell phone to open

Energy Conversions Water is poured into the funnel KE of the bottle moving downward equals KE of board moving upward. KE of the board moving causes the ball’s velocity to start rolling down the ramp, plus the ELOSS of the friction of the ball rolling. Ball’s weight equals necessary force able to set off mousetrap. Trigger of trap releases the force in compressed string. String attached to the spring of trap exerts same force of released spring. Force on string equals amount of energy required to open cell phone. ELOSS obtained through device does not compare to amount of excess energy produced.

Let’s See How It Works…

Watch out for the Mousetrap! Robby wasn’t quick enough…..

Conclusion Though our device could have been made more energy efficient by using a different combination of materials, it worked well in achieving our anticipated outcome. The device endured a series of changes due to previous idea failures before we were successful. Each team member equally contributed and was open-minded to everyone’s ideas. We were able to apply many of the concepts we learned this semester, and in addition were able to demonstrate teamwork, innovation, technical skills, and communication skills.

Individual Contributions Construction, Materials, testing of mousetrap Construction, Powerpoint, Uploading of files Construction, Report Revisions, Final Preparations