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IGNITING IMAGINATION AND INNOVATION THROUGH LEARNING

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IGNITING IMAGINATION AND. INNOVATION THROUGH . LEARNING. Introduction to PLTW Duane Crum, PLTW State Leader. What is Project Lead The Way?. PLTW is a National, not-for-profit organization with the goal of increasing the nation’s biomedical, engineering and technical workforce. Programs. - PowerPoint PPT Presentation

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Page 1: IGNITING IMAGINATION AND

IGNITING IMAGINATION AND INNOVATION THROUGH

LEARNING

Page 2: IGNITING IMAGINATION AND

Introduction to PLTWDuane Crum,

PLTW State Leader

Page 3: IGNITING IMAGINATION AND

What is Project Lead The Way?

Programs

PLTW is a National, not-for-profit organization with the goal of increasing the nation’s biomedical, engineering and technical workforce.

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PLTW’s Three Key Components:• Curricula - Rigorous and Relevant middle and

high school courses (with college credit options) that use problem-based learning.

• Professional Development – High-quality, rigorous, continuing, and course-specific teacher training.

• Partnerships – Required relationships between businesses, post-secondary institutions and school administrators.

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What Students (and Teachers) do Well in PLTW?

Students who:• Show interest in STEM (Science, Technology,

Engineering, or Math) career fields.• Are creative – Like art and design.• Enjoy working with computers.• Learn best in “hands-on” classes.• Are in the upper 80% of their class.

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Why Do We Need PLTW?

• There are 1.3 M engineering & technology jobs open in the U.S. without trained people to fill them.

• According to the Government we will need 15M engineers and tech workers by 2020, but…

• Since 1988, the number of Engineering and Technology Graduates has decreased by ~20%.

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What Can We Do?Make a small change in the culture of American

high schools by:

• Strengthening the core academic curricula, (e.g. English, math, science, social studies, etc.)

• Adding a rigorous, technical, standards-based program of study in engineering and technology, leading to jobs, trade schools, 2-year, 4-year and post graduate degrees.

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Curriculum Programs

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Engineering Programs• Middle School: Gateway To Technology

six, nine-week long modules• High School: Pathway To Engineering

Eight, year-long courses

Biomedical Sciences Program• High School: Biomedical Sciences

Four, year-long courses

Curriculum Programs

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Basic Units• Design and Modeling • Automation and Robotics• Energy and the Environment

Advanced Units• Flight and Space• Science and Technology• Magic of Electrons

Gateway To Technology for Middle School It’s How we Recruit Boys And Girls.

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• All GTT courses are designed as nine-week units on a standard 45-50 minute schedule.

• Schools may offer courses from grade six through grade eight in a manner they determine reasonable and appropriate for their school. Local schools determine the PLTW sequence of units they implement.

Gateway To Technology Program

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Gateway To Technology Program

Simulated manufacturing line

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Foundation Courses• Introduction to Engineering Design• Principles Of Engineering• Digital Electronics

Specialization Courses• Aerospace Engineering• Biotechnical Engineering• Civil Engineering and Architecture• Computer Integrated Manufacturing

Capstone Course• Engineering Design and Development

High SchoolPathway to Engineering Program

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A Hands-on, project-based course that teaches:

• Engineering as a Career• Materials Science• Structural Design• Applied Physics• Automation/Robotics• Embedded Processors• Drafting/Design

Foundation Course: Principles Of Engineering

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Foundation Course: Introduction To Engineering Design

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Civil Engineering & Architecture Kearny Redesigns Their Classroom

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And a Neighborhood Park

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Design > Simulate > Prototype > Fabricate

Foundation Course: Digital Electronics

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• Soils• Permits• Design• Structural Analysis

Specialization Course:Civil Engineering and Architecture

Cuban Restaurant

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• Design and build an airfoil.• Test it in a wind tunnel. • Create a 3D solid model of

the airfoil in AutoDesk Inventor.

Aerospace Engineering

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Specialization Course:Computer Integrated Manufacturing

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Capstone Course:Engineering Design and Development

Problem Solving in Teams

Juried Presentations

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BIOMEDICAL SCIENCES PROGRAM

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• Prepare students for high demand, high wage careers –healthcare employs>10% of total national employment.

• Prepare students for rigorous post-secondary education and training.

• Address impending critical shortage of health professionals – over 3.6M new healthcare jobs are expected by 2014 including 8 of 20 of all highest growth jobs.

Biomedical Sciences ProgramGoals:

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Biomedical Careers--- some examples ---

• Physician• Nurse• Dentist• Veterinarian• Pharmacist• Paramedic• Dietician• Surgeon

• Research Scientist • Health Information

Manager• Medical Technologist• Radiology Technician• Medical Technical

Writer• Physicians’ Assistant• Biomedical Engineer

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Students Learn the Softskills Businesses Want:• Work as a team member• Search and evaluate websites• Cite sources of information• Write summaries• Speak and present in front of

multiple audiences• Design experiments• Make data charts and graphs

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THE FOUR COURSES

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Biomedical Sciences Program

• Principles of the Biomedical Sciences• Human Body Systems• Medical Interventions• Biomedical Innovation

• Note: Students are expected to take a complete program of college-prep science and mathematics.

Sequence of Courses:

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Principles of the Biomedical Sciences

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Course #1: Principles of the Biomedical Sciences

• The study of human medicine, research processes and an introduction to bioinformatics.

• Students investigate human body systems and health conditions including: heart disease, diabetes, sickle-cell disease, hypercholesterolemia, and infectious diseases.

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Course #1: Principles of the Biomedical Sciences

• Literary research skills• Human Body Systems• Basic chemistry• Structure and function of DNA• Bioinformatics• Protein structure• Causes of infectious diseases• Grant proposals

PBS Topics:

Page 32: IGNITING IMAGINATION AND

Example from Unit 4 in the PBS curriculum

Students use a computer simulation to view how a protein’s shape changes due to its environment and components

Example of a PBS Student Activity

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PBS Unit 3: Diabetes• Analyze food labels• Measure energy in food samples • Build models of macromolecules• Detect macromolecules in food

samples• Build model of an enzyme• Investigate feedback loops• Perform dialysis experiment• Prepare presentation on diabetes

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PBS Unit 4: Sickle Cell Disease• Make chromosome spreads• Isolate DNA from cells• Analyze images of chromosome

arrays to detect congenital diseases• Build models of DNA and proteins• Read a genetic map• Use computer simulation software to

build a designer protein

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Example of a PBS Student Activity

Students make a chromosome spread and stain to observe human cells and observe them under the microscope (shown 1000x)

Example from Unit 4 in the PBS curriculum

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Human Body Systems

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Course #2: Human Body Systems • Students study human physiology,

especially in relationship to health. A central theme is how the systems work together to maintain good health.

• Students use data acquisition software to monitor body functions and use the Anatomy with Clay® Manikens™ to study body structure.

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HBS Topics:• Relationship between structure and function• Maintenance of health• Defense against disease• Communication within the body and with the outside

world• Movement of the body and of substances around the

body• Energy distribution and processing

Course #2: Human Body Systems

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Example from Unit 1 in the HBS curriculum

Students take measurements of bones to determine if the bone is from a male or female and the ethnicity of the person

Example of a HBS Student Activity

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Example of a HBS Student Activity

Students work with the Anatomy in Clay® Maniken™ throughout the course to build portions of the body systems

Example from HBS curriculum

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HBS Unit 2: Communication• Build a model brain and a “map” of brain function.• Use data acquisition software and sensors to

compare reaction time for reflex and voluntary actions.

• Diagnose a mystery endocrine disorder• Dissect a cow eye and

experiment with lenses

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HBS Unit 4: Movement• Build muscle groups on a skeletal manikin• Design experiments to determine the

energy requirements for muscle contraction

• Use data acquisition software to evaluate muscle function

• Use doppler ultrasound to monitor blood flow in the leg.

• Design a training plan for a particular athlete for a specific event.

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Medical Interventions

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Course #3: Medical Interventions

• Study medical interventions involved in the prevention, diagnosis and treatment of disease as students follow the lives of a fictitious family.

• Projects investigate interventions related to diagnostics, immunology, surgery, genetics, pharmacology, medical devices, and lifestyle choices.

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MI: Topics• Molecular biology and genetic engineering• Design process for pharmaceuticals and

medical devices• Medical imaging, including x-rays, CT

scans, and MRI scans• Disease detection and prevention• Rehabilitation after disease or injury• Medical interventions of the future

Course #3: Medical Interventions

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MI Unit 1: How to Fight Infection

• Identify pathogens using bioinformatics• Run simulated ELISA to diagnose disease• Test microbes for antibiotic resistance• Assess hearing loss and evaluate assisted

hearing devices• Investigate production of vaccines

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Example of a MI Student Activity

Students work with a mock laparoscopic surgery trainer box simulation to learn modern surgical intervention techniques.

Example from Unit 4 in the MI curriculum

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MI Unit 3: How to Conquer Cancer

• Explore cancer diagnostic techniques• Evaluate cancer cell genes using

simulated DNA microarrays• Use data acquisition software and sensors

to simulate biofeedback therapy • Build a prosthetic arm• Design a clinical trial for a

nanotechnology-based cancer treatment

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Example of a MI Student Activity

Students insert new DNA into bacterial cells. The new DNA codes for a protein that glows (picture shows before and after DNA insertion).

Example from Unit 4 of the MI curriculum

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Biomedical Innovation

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Course #4: Biomedical Innovation • Students design innovative solutions for 21st

century health challenges. • Students present their results to an

audience which may include representatives from the healthcare or business community or the school’s PLTW partnership team.

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Biomedical Innovation• Progressively challenging problems with

multiple presentation. • Apply knowledge and skills learned in all

previous courses• Initial problems are done by all students• Advanced projects may be chosen form

suggested challenges or…• Original research may be done to provide

opportunity for work with outside mentors

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Biomedical Innovation

• Design a more efficient emergency room• Design an experiment using sensors and data

acquisition software to monitor or measure a physiological change

• Design a medical intervention to aid patients• Evaluate water quality and propose solutions

to eliminate contamination of water sources• Design a solution to a local or global public

health challenge• Complete an optional independent problem

Example Problems

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BMS Cost Summary

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BMS Cost Elements (non-recurring)• Facilities – Already available in most schools;

classroom with workbenches, 2 sinks, white board, refrigerator/freezer, LCD projector, and printer.

• Professional Development – ~$4,000 per teacher per course for tuition, travel, room and board.

• Computers and Software – One computer for every two students with Inspiration SW; ~$550 per student.

• Course-Specific Equipment and Supplies – – Principles of the Biomedical Sciences: $21,797– Human Body Systems: $12,828– Medical Interventions: $10,134– Biomedical Innovation: $TBD

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BMS Cost Elements (annual recurring)• LabVIEW Software – Schools may choose

$1,000 for 25 seats or $2,400 for 100 seats.

• Annual Participation Fee - $2,000 per school.

• Consumables and Supplies – Less than $2,000 for all four courses.

Page 57: IGNITING IMAGINATION AND

Total Typical BMS Cost for the First Three Courses

• Typical Non-Recurring (includes initial training for one teacher for three courses but excludes computers and facilities that most schools already have):

$56,000

• Typical Annual Recurring (includes typical Professional Development for replacement teachers, program fees, software and consumables):

$7,000

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Teacher Professional Development

• Readiness Training• Core Training• Ongoing Training

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readiness trainingDesigned to develop a baseline for all teachers prior to attending Core Training through the assessment of skill sets and delivery of any necessary remedial training.

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core trainingLovingly referred to as PLTW’s “boot camp,” this intense training focuses on the PLTW teaching model and course content.

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core trainingDesigned to empower teachers with the confidence, understanding, and knowledge necessary to teach the curriculum. A teacher is only able to teach a course after successful completion of Core Training.

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ongoing trainingDesigned to provide additional training for teachers to further their understanding of related course tools, content, and concepts after the completion of Core Training.

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All PLTW Engineering Courses are “A-G” Approved

Approved as “g” electives:• Intro to Engr. Design (interdisciplinary)• Digital Electronics (math)• Principles of Engineering (interdisciplinary)• Aerospace Engineering (interdisciplinary)• Civil Engr. & Architecture (interdisciplinary)• Computer Integrated Manufacturing (other)• Biotech Engineering (science-biological)• Engineering Design and Dev. (interdisc.)

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Approved as “f”, Visual & Performing Art:• Introduction to Design

(optional approval for IED)

Approved as “d”, Lab Science:• Engineering Design and Development

(optional if taught by a science teacher)

All PLTW Engineering Courses are A-G Approved

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It’s only for students going to college (it’s too rigorous for our kids).

It’s only for students NOT going to college (it’s not rigorous enough for our kids).

It’s too expensive.

It’s too rigid.

Common PLTW Urban Myths

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NATIONAL PRESENCE

• Districts: 1,581• High school programs: 2,296• Middle school programs: 1,088• Middle/High school programs: 93• Post-Secondary programs: 30• Total programs: 3,507• Total teachers trained: 12,000 +• Total counselors trained: 8,000 + • Total students enrolled in PLTW courses: 300,000+

Totals as of January 2010

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PLTW: California Growth~400 schools for 2011-2012

2000 2001 2002 2003 2004 2005 2006 2007 2008 20090

20

40

60

80

100

120

140

160

180

5 8 12 22 30 3457

93117

170

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The California Affiliate• Promotes the PLTW program within

California, works with the CDE• Oversees and supports the Regional

Centers and statewide training

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The State Affiliate …… SDSU, College of Engineering• Conducts summer training sessions….two-week

sessions (per course) covering the course content and pedagogy

• Holds informational conferences.. For counselors and all others interested in PLTW

• Conducts professional development workshops for the PLTW teachers

www.pltwca.org

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California Regional Centers …. Statewide support for the PLTW schools

• San Diego … San Diego State• LA area …. Cal Poly Pomona• Bay Area …San Jose State (Eng.)

Cal State East Bay (BMS)

• Sacramento ….. LEED