Each MoonBuggy is required to carry two students, one male and one female for the duration of the course. This course consists of approximately one half mile of lunar surface composed of craters, rocks, lava, inclines and “lunar” soil. The MoonBuggy design team consists of six students who design, build, and compete using the final product.\\

CycleSmith
\\

MoonBuggy Photos

Team Captain:

MoonBuggy Photos

Bolt & Nut Supply Co.
\\

CEntry\\

Fox Shox\\

Peer Bearing
Martin Gear and Sprocket

Borgeson Universal

Fox Shox

\\

Fox Shox

Peer Bearing \\

Peer Bearing \\

ATK Launch Systems\\

Hexcel\\

ATK Launch Systems\\

Cambric
ATK Thiokol
Questar
Aurora Bearing
Peer Bearing
Applied Industrial

Sponsors

Cambric ATK Thiokol Questar Aurora Bearing Peer Bearing Applied Industrial

Proposal

Attach:MoonbuggyProposal.doc

Attach:’Moonbuggy Proposal.doc’

Attach:”Moonbuggy Proposal.doc”

Attach:Moonbuggy Δ Proposal.doc

Attach:moon.jpg Δ

Hi guys,
I haven’t been able to figure out how to upload larger than 2MB doc files (ziping files doesn’t help either). I’d suggest either processing to PDF or just waiting for now… it won’t be counted against you.

Sorry,
Will

David Meier

DaveMeier

David Meier

David Meier

David Meier

Each MoonBuggy Team is required to carry two students, one male and one female for the duration of the course. This course consists of approximately one half mile of lunar surface composed of craters, rocks, lava, inclines and “lunar” soil. The MoonBuggy design team consists of six students who design, build, and compete using the final product.\\

The senior project requires the design of a vehicle that addresses engineering problems similar to problems faced by the original MoonBuggy Team. These include functionality, drive type, safety, assembly and disassembly requirements. The Annual Great MoonBuggy Team Race sponsored by NASA is held in Huntsville Alabama each spring. \\

Manufacture and design an off-road human powered vehicle to compete in The Great MoonBuggy Race in Huntsville, AL on April 20, 2007. This vehicle is required to race over approximately one half mile of lunar terrain and carry instrumentation similar to that of a functional MoonBuggy Team. In addition the MoonBuggy Team must disassemble the vehicle to fit within a four foot cube.

• ME 4000 Homepage

Sample Team

• Announcements
• Customer Requirements?
• Functional Specifications?
• Benchmarking
• Brainstorming
• Prototypes
• Group Presentations
• Team Reports
  • TeamMember1Report
  • TeamMember2Report
  • TeamMember3Report

Team Members

• Team Member 1?
• Team Member 2?
• Team Member 3?

(edit side bar)

(:noteblock color=#ffffff float=left hidden=true:) ME4000 Links (:notecontent:) (:include Main.SideBar:) (:noteblockend:)

Team Picture

Team members are (from left to right) Elizabeth Nies, Quentin Benson, Emina Maric, Mark Kocik, Jonathan Hilton and Dave Meier.

Team Picture

Team members are (from left to right) Elizabeth Nies, Quentin Benson, Emina Maric, Mark Kocik, Jonathan Hilton and Dave Meier.

Team Picture

Team members are (from left to right) Elizabeth Nies, Quentin Benson, Emina Maric, Mark Kocik, Jonathan Hilton and Dave Meier.

Manufacture and design an off-road human powered vehicle to compete in The Great MoonBuggy Race in Huntsville, AL on April 20, 2007. This vehicle is required to race over approximately one half mile of lunar terrain and carry instrumentation similar to that of a functional MoonBuggy Team. In addition the MoonBuggy Team must disassemble to fit within a four foot cube.

Manufacture and design an off-road human powered vehicle to compete in The GreatMoonBuggy Race in Huntsville, AL on April 20, 2007. This vehicle is required to race over approximately one half mile of lunar terrain and carry instrumentation similar to that of a functional MoonBuggy Team. In addition the MoonBuggy Team must disassemble to fit within a four foot cube.

race a human powered MoonBuggy Team. During this process the design team will encounter the same constraints and design issues encountered by the first lunar roving vehicle.

\\

\\

\\

\\

Manufacture and design an off-road human powered vehicle to compete in a MoonBuggy Team race in Huntsville, AL on April 20, 2007. This vehicle is required to race over approximately one half mile of lunar terrain and carry instrumentation similar to that of a functional MoonBuggy Team. In addition the MoonBuggy Team must disassemble to fit within a four foot cube.

The senior project requires the design of a vehicle that addresses engineering problems similar to problems faced by the original MoonBuggy Team team. These include functionality, drive type, safety, assembly and disassembly requirements. The Annual Great MoonBuggy Team Race sponsored by NASA is held in Huntsville Alabama each spring.
Each MoonBuggy Team is required to carry two students, one male and one female for the duration of the course. This course consists of approximately one half mile of lunar surface composed of craters, rocks, lava, inclines and “lunar” soil. The MoonBuggy Team design team consists of six students who design, build and compete using the final product.
During the competition the two riders are required to carry the MoonBuggy Team disassembled to the starting line within a 4’ x 4’ x 4’ volume, mimicking the requirements of the original lunar roving vehicle. At the starting line the MoonBuggy Team will be assembled, tested for safety and setup for course testing. At this point the design team will be evaluated on the time required to safely traverse the course. Each team is allowed two runs through the “lunar” terrain and the shortest time will be added to the assembly time for a total time for this competition.
The completed MoonBuggy Team will be evaluated on functionality separate from the race. This evaluation will examine the technical approach used to solve the engineering problem of navigating the lunar course and not the time needed to traverse the course. Awards will also be given for most unique, most improved and system safety award.
This senior design project gives the design team the opportunity to design, test, built and race a human powered MoonBuggy Team. During this process the design team will encounter the same constraints and design issues encountered by the first lunar roving vehicle. \\

Manufacture and design an off-road human powered vehicle to compete in a MoonBuggy Team race
in Huntsville, AL on April 20, 2007. This vehicle is required to race over approximately one half
mile of lunar terrain and carry instrumentation similar to that of a functional MoonBuggy Team.
In addition the MoonBuggy Team must disassemble to fit within a four foot cube.

of the course. This course consists of approximately one half mile of lunar surface composed
of craters, rocks, lava, inclines and “lunar” soil. The MoonBuggy Team design team consists of
six students who design, build and compete using the final product.

Elizabeth Nies, Mark Kocik, Emina Maric, Jonathan Hilton,

Elizabeth Nies Mark Kocik

Manufacture and design an off-road human powered vehicle to compete in a MoonBuggy Team race in Huntsville, AL on April 20, 2007. This vehicle is required to race over approximately one half mile of lunar terrain and carry instrumentation similar to that of a functional MoonBuggy Team. In addition the MoonBuggy Team must disassemble to fit within a four foot cube.

similar to problems faced by the original MoonBuggy Team team. These include functionality,
drive type, safety, assembly and disassembly requirements. The Annual Great MoonBuggy Team \\

Each MoonBuggy Team is required to carry two students, one male and one female for the duration\\

 of craters, rocks, lava, inclines and “lunar” soil.  The MoonBuggy Team design team consists of\\

During the competition the two riders are required to carry the MoonBuggy Team disassembled to the \\

roving vehicle. At the starting line the MoonBuggy Team will be assembled, tested for safety and \\

The completed MoonBuggy Team will be evaluated on functionality separate from the race. This \\

race a human powered MoonBuggy Team. During this process the design team will encounter the same \\

MoonBuggy Team

Elizabeth Nies

Mark Kocik

Emina Maric

Jonathan Hilton

Members: Elizabeth Nies,

Mark Kocik,

Emina Maric,

Jonathan Hilton,

David Meier

MoonBuggy Team

drive type, safety, assembly and disassembly requirements. The Annual Great MoonBuggy \\

similar to problems faced by the original MoonBuggy team. These include functionality, \\

Each MoonBuggy is required to carry two students, one male and one female for the duration\\

 of craters, rocks, lava, inclines and “lunar” soil.  The MoonBuggy design team consists of\\

During the competition the two riders are required to carry the MoonBuggy disassembled to the \\

roving vehicle. At the starting line the MoonBuggy will be assembled, tested for safety and \\

The completed MoonBuggy will be evaluated on functionality separate from the race. This \\

race a human powered MoonBuggy. During this process the design team will encounter the same \\

Our Team

Manufacture and design an off-road human powered vehicle to compete in a MoonBuggy race in Huntsville, AL on April 20, 2007. This vehicle is required to race over approximately one half mile of lunar terrain and carry instrumentation similar to that of a functional MoonBuggy. In addition the MoonBuggy must disassemble to fit within a four foot cube.

Manufacture and design an offroad human powered vehicle to compete in a moonbuggy race in Huntsville, AL on April 20, 2007. This vehical is reqried to race over aproximatly one half mile of lunar terain and cary instrumintation similar to that of a functional moonbuggy. In addition the moonbuggy must dissasemble to fit within a four foot cube.

The senior project requires the design of a vehicle that addresses engineering problems
similar to problems faced by the original Moonbuggy team. These include functionality,
drive type, safety, assembly and disassembly requirements. The Annual Great Moonbuggy
Race sponsored by NASA is held in Huntsville Alabama each spring.

Each Moonbuggy is required to carry two students, one male and one female for the duration
of the course. This course consists of approximately one half mile of lunar surface composed
of craters, rocks, lava, inclines and “lunar” soil. The Moonbuggy design team consists of
six students who design, build and compete using the final product.

During the competition the two riders are required to carry the Moonbuggy disassembled to the
starting line within a 4’ x 4’ x 4’ volume, mimicking the requirements of the original lunar
roving vehicle. At the starting line the Moonbuggy will be assembled, tested for safety and
setup for course testing. At this point the design team will be evaluated on the time required
to safely traverse the course. Each team is allowed two runs through the “lunar” terrain and
the shortest time will be added to the assembly time for a total time for this competition.

The completed Moonbuggy will be evaluated on functionality separate from the race. This
evaluation will examine the technical approach used to solve the engineering problem of
navigating the lunar course and not the time needed to traverse the course. Awards will
also be given for most unique, most improved and system safety award.

This senior design project gives the design team the opportunity to design, test, built and
race a human powered Moonbuggy. During this process the design team will encounter the same
constraints and design issues encountered by the first lunar roving vehicle.

	The senior project requires the design of a vehicle that addresses engineering problems similar to problems faced by the original Moonbuggy team.  These include functionality, drive type, safety, assembly and disassembly requirements.  The Annual Great Moonbuggy Race sponsored by NASA is held in Huntsville Alabama each spring.  
	Each Moonbuggy is required to carry two students, one male and one female for the duration of the course.  This course consists of approximately one half mile of lunar surface composed of craters, rocks, lava, inclines and “lunar” soil.  The Moonbuggy design team consists of six students who design, build and compete using the final product.
	During the competition the two riders are required to carry the Moonbuggy disassembled to the starting line within a 4’ x 4’ x 4’ volume, mimicking the requirements of the original lunar roving vehicle.  At the starting line the Moonbuggy will be assembled, tested for safety and setup for course testing.  At this point the design team will be evaluated on the time required to safely traverse the course.  Each team is allowed two runs through the “lunar” terrain and the shortest time will be added to the assembly time for a total time for this competition.
	The completed Moonbuggy will be evaluated on functionality separate from the race.  This evaluation will examine the technical approach used to solve the engineering problem of navigating the lunar course and not the time needed to traverse the course.  Awards will also be given for most unique, most improved and system safety award.
	This senior design project gives the design team the opportunity to design, test, built and race a human powered Moonbuggy.  During this process the design team will encounter the same constraints and design issues encountered by the first lunar roving vehicle.            

David Meier

MoonBuggy

Team members are (from left to right) Elizabeth Nies, Quentin Benson, Emina Maric, Mark Kocik, Jonathan Hilton and Dave Meier.

(:noteblock color=#ffffff float=left hidden=true:) ME4000 Links (:notecontent:) (:include Main.SideBar:) (:noteblockend:)

Sample Team

• Announcements
• Customer Requirements?
• Functional Specifications?
• Benchmarking
• Brainstorming
• Prototypes
• Group Presentations
• Team Reports
  • TeamMember1Report
  • TeamMember2Report
  • TeamMember3Report

Team Members

• Team Member 1?
• Team Member 2?
• Team Member 3?

(edit side bar)

(:noteblock color=#ffffff float=left hidden=true:) ME4000 Links (:notecontent:) (:include Main.SideBar:) (:noteblockend:)

Here is the team:

\\

Here is The Team:

Elizabeth Nies

Mark Kocik
Emina Maric

Jonathan Hilton
\\

\\

Quentin Benson

Dave Meier

Jonathan Hilton

Electronic copy of project proposal from ME 3910:

Electronic copy of project proposal from ME3910: Moonbuggy_finalrepor.doc Δ

Project Advisor: Dr. Adams

Team Captian:

First girl Friend:

Sanitation Engineer:

Sanitation Engineer Girl Friend:

Smart and Intelligant Team Member:

CS Support:

Team members are (from left to right) Elizabeth Nies, Quentin Benson, Emina Maric, Mark Kocik, Jonathan Hilton and Dave Meier.

A Team That is Out Of This World.\\

DaveMeier

DaveMyer

JonHilton

DaveMeier

QuintinBenson ElizabethNies MarkKocik EminaMaric JonathanHilton

DavidMeier

Attach:MoonBuggyGroup.jpg Δ

Put the info for your group’s homepage here (i.e., what you need to do for the first part of HW#1, also summarized below).

To create a SideBar for your group, follow the instructions on the Sample page in the sidebar to your left.

Create a group logo and upload it into the space in the upper left of this page.

To create user pages in this group that are based on the page that you already completed in ME3910, place the wikiNames of your group members on this page. Then, once you’ve saved this page, you will note a ? mark next to their WikiName. Click their WikiName to be prompted to create their page. When you do this place the following line of text in the edit window:

(:include profiles.WikiName :)

And replace WikiName with your WikiName

Problem Statement

• no more than 3 sentences.

Project Summary

• 3–4 paragraphs

Group Picture

 *your picture must be a gif or jpeg & must be under 200KB or it will not upload