2. The following Project Lead The Way laboratory design was developed by technology education majors at Purdue University as part of their IT: 471 course “Managing the Technology Education Laboratory” instructed by Dr. George E. Rogers
3. Facility Design Proposal
The New Technology
Education Laboratory
Prepared by
Mr. Steven Schellenberger and Mr. Jeff Totsch
4. Table of Contents PLTW Introduction
Gateway To Technology (GTT)
Mission Statement
PLTW Proposal Objective
Acoustics
Color
Illumination
Ventilation Computer workstation design
PLTW Safety equipment
PLTW Laboratory equipment list
GTT Unit Cost Totals
PLTW Laboratory Layout
Sources
PLTW Suppliers
Questions
5. Project Lead The Way The introduction of technology into the technology education classroom and laboratory requires a new facility design to fully incorporate the
Gateway To Technology curriculum.
6. Project Lead The Way�Opportunities for Students PLTW in the Technology Education classroom and laboratory allows all students the opportunity to be exposed to pre-engineering courses, as well as receive college credit. With PLTW courses, students will be more prepared for their future after high school.
7. Gateway To Technology (GTT)
8. The Gateway To Technology program consists of
four independent instructional units:
Design and Modeling: An introduction into the design process where students use measurement and descriptive geometry, learn sketching techniques, as well as create models and document ways to solve problems (Rube Goldberg).
The Magic of Electrons: Students learn through hands-on activities and projects about the science of electricity, circuit design, sensing devices, and the movement of atoms (PC Board Power Etching ).
The Science of Technology: This unit seeks to investigate how science has affected technology throughout history (Dragster).
Automation and Robotics: Students learn about the history and development of automation and robotics. This unit covers computer control systems, machine automation, energy transfer, and structures (Fischertechniks).
9. Our mission is to train and prepare students for their future by enhancing their personal growth and helping them become active partners in the transformation of the nation’s schools for an advancing technological society.
National Standards met: Standard 8 H,I Standard 9 I,K
Standard 17 I,M,O,P,Q Standard 18 J,L,M
Standard 19 M,N,O,P Standard 20 J,K,L,M,N
10. Proposal Objective Our new design consists of four major objectives:
Allow for safer working conditions for all students and faculty
Create a dust-free room for projects and activities involving computers
Provide space for a first aid station and additional space for demonstrations and instructional materials, a dust collection system, and fire-safe rooms
Construct an educational environment that fosters the learning of skills and concepts that students will use in future life experiences
11. Acoustics Acoustics control noise for
students and faculty
Dust collector and air compressor in own room
Ceiling should have a minimum sound
absorption of 75%
Carpet eliminates floor-generated noises and reduces heating and floor maintenance
12. Color The color of the classroom and laboratory
serves many purposes:
The room color must first give the student, the faculty, and the public a sense of safety. The room color must be simple and safety friendly. We suggest light blue because lighter colors make the room appear larger, and it is relaxing, soothing, and calm.
Painted safety lines on laboratory floor
Personal safety equipment is color-coded for easy visibility for students and faculty.
13. Illumination Lighting is very important for learning
Natural lighting from five windows (two in classroom and three in laboratory) located six feet up from the floor.
Artificial lighting rating between 50-70 foot-candles for the classroom and 75-150 foot-candles for the laboratory.
Lighting is located directly above workstations and students’ desks to give the best possible lighting.
14. Ventilation Clean air is important to good health
Delta Ambient Air Cleaner
Item #: 12500160 $416.00 EA
Torit Cyclone Dust Collector,3 PH 208/230/640V w/ motor & magnet control
Item #: 12599377 $5665.00 EA
15. Computer Workstation Design Many activities now require the use of a computer. A well-designed workstation will:
increase comfort
reduce fatigue
increase productivity
16. Safety Equipment Eye protection equipment
Use ANSI-Z87 with side shields or goggles when around small, flying objects.
Use splash-proof goggles when working with hazardous or mixing chemicals.
Use Z136.1-1980 eyewear when working with laser beams.
Eye wash station, First aid kit, and wash sink in laboratory
19. In conclusion, we believe that our facility design will allow for safer working conditions for all students and faculty.
Our goal is to construct an educational environment that fosters the learning of skills and concepts that students will use in future life experiences
20. Sources ITEA. (2000). Standards for Technological Literacy: Content for the Study of Technology.
Storm, G. (1993). Managing the occupational education laboratory. (2nd Ed.). Prakken Publications, Inc.
Retrieved November 10, 2004. http://www.pltw.org/mses.shtml
