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Occupation Details

Industrial Engineering Technologists and Technicians

Green Job Apprenticeship
$41,670.00
Starting NY Salary
College Helps - Some college classes or training
Preparation
+48 jobs/year
NY Growth (2030)

Apply engineering theory and principles to problems of industrial layout or manufacturing production, usually under the direction of engineering staff. May perform time and motion studies on worker operations in a variety of industries for purposes such as establishing standard production rates or improving efficiency.

Manufacturing | Manufacturing Production Process Development
O*NET: 17-3026.00
Quick Navigation
Quick Navigation
Overview
Salary & Job Outlook
Preparation
Licensing & Certification
Apprenticeship
Skills
Knowledge
School Programs
Work Environment
Work Styles
Tools & Technology
Duties
Tasks
Learning Resources

Interests

Realistic

Realistic occupations frequently involve work activities that include practical, hands-on problems and solutions. They often deal with plants, animals, and real-world materials like wood, tools, and machinery. Many of the occupations require working outside, and do not involve a lot of paperwork or working closely with others.

Investigative

Investigative occupations frequently involve working with ideas, and require an extensive amount of thinking. These occupations can involve searching for facts and figuring out problems mentally.

Conventional

Conventional occupations frequently involve following set procedures and routines. These occupations can include working with data and details more than with ideas. Usually there is a clear line of authority to follow.

Work Values

Achievement

Occupations that satisfy this work value are results oriented and allow employees to use their strongest abilities, giving them a feeling of accomplishment. Corresponding needs are Ability Utilization and Achievement.

Support

Occupations that satisfy this work value offer supportive management that stands behind employees. Corresponding needs are Company Policies, Supervision: Human Relations and Supervision: Technical.

Independence

Occupations that satisfy this work value allow employees to work on their own and make decisions. Corresponding needs are Creativity, Responsibility and Autonomy.

Salary & Job Outlook

Starting Salary

$41,670.00

New York State
Median Salary

$62,260.00

New York State
Experienced Salary

$74,490.00

New York State
National Average for Comparison
Starting Salary
$48,750.00
Median Salary
$61,210.00
Experienced Salary
$75,510.00

New York State Job Market Outlook

Jobs Right Now (2018)

2,840

professionals in NY
Future Job Growth (2030)

3,320

+48 jobs/year
New Jobs Every Year

330

new opportunities yearly
Growth Rate

0.2%

projected increase
Wages are calculated from average hourly rates for full-time work over one year. Actual salaries may vary based on location, experience, and work schedules.

Preparation: Experience, Training, and Education

The list below outlines the prior educational experience required to perform in this occupation.

College Helps - Some college classes or training
Experience Requirements

Previous work-related skill, knowledge, or experience is required for these occupations. For example, an electrician must have completed three or four years of apprenticeship or several years of vocational training, and often must have passed a licensing exam, in order to perform the job.

Education Requirements

Most occupations in this zone require training in vocational schools, related on-the-job experience, or an associate's degree.

Training Details

Employees in these occupations usually need one or two years of training involving both on-the-job experience and informal training with experienced workers. A recognized apprenticeship program may be associated with these occupations.

Transferrable Skills and Experience

These occupations usually involve using communication and organizational skills to coordinate, supervise, manage, or train others to accomplish goals. Examples include hydroelectric production managers, desktop publishers, electricians, agricultural technicians, barbers, court reporters and simultaneous captioners, and medical assistants.

School Programs

The following lists school programs which are applicable to this occupation.

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Licensing & Certification

State License and Certifications Requirements are not currently associated with this occupation.

Apprenticeship

Contact your regional representative to learn more about apprenticeships available in your area by visiting Apprenticeship Contacts.

Skills

The list below includes the skills required by workers in this occupation; skills are what allow you to learn more quickly and improve your performance.

Reading Comprehension

Understanding written sentences and paragraphs in work-related documents.

Active Listening

Giving full attention to what other people are saying, taking time to understand the points being made, asking questions as appropriate, and not interrupting at inappropriate times.

Critical Thinking

Using logic and reasoning to identify the strengths and weaknesses of alternative solutions, conclusions, or approaches to problems.

Complex Problem Solving

Identifying complex problems and reviewing related information to develop and evaluate options and implement solutions.

Skill importance is measured on a five point scale, where one means 'slightly important for this occupation' and five means 'extremely important for this occupation'.
Skill level is measured on a seven point scale, where one means 'some competence required for this occupation' and seven means 'a high level of expertise required for this occupation'.

Knowledge

The list below includes knowledge items, the principles and facts required by this occupation.

Mechanical

Knowledge of machines and tools, including their designs, uses, repair, and maintenance.

Engineering and Technology

Knowledge of the practical application of engineering science and technology. This includes applying principles, techniques, procedures, and equipment to the design and production of various goods and services.

Production and Processing

Knowledge of raw materials, production processes, quality control, costs, and other techniques for maximizing the effective manufacture and distribution of goods.

Mathematics

Knowledge of arithmetic, algebra, geometry, calculus, statistics, and their applications.

Design

Knowledge of design techniques, tools, and principles involved in production of precision technical plans, blueprints, drawings, and models.

English Language

Knowledge of the structure and content of the English language including the meaning and spelling of words, rules of composition, and grammar.

Computers and Electronics

Knowledge of circuit boards, processors, chips, electronic equipment, and computer hardware and software, including applications and programming.

Physics

Knowledge and prediction of physical principles, laws, their interrelationships, and applications to understanding fluid, material, and atmospheric dynamics, and mechanical, electrical, atomic and sub-atomic structures and processes.

Knowledge importance is measured on a five point scale, where one means 'slightly important for this occupation' and five means 'extremely important for this occupation'.
Knowledge level is measured on a seven point scale, where one means 'some competence required for this occupation' and seven means 'a high level of expertise required for this occupation'.

Work Environment

The list below includes the physical and social factors that influence the nature of work in this occupation.

Electronic Mail Face-to-Face Discussions Wear Common Protective or Safety Equipment such as Safety Shoes, Glasses, Gloves, Hearing Protection, Hard Hats, or Life Jackets Telephone Indoors, Environmentally Controlled Contact With Others Work With Work Group or Team Freedom to Make Decisions Importance of Being Exact or Accurate Impact of Decisions on Co-workers or Company Results

Hover over or tap each factor to see its description.

Work Styles

Included in the list below are the personal work style characteristics that can affect how well a worker is likely to perform in this occupation.

Analytical Thinking

Job requires analyzing information and using logic to address work-related issues and problems.

Attention to Detail

Job requires being careful about detail and thorough in completing work tasks.

Cooperation

Job requires being pleasant with others on the job and displaying a good-natured, cooperative attitude.

Dependability

Job requires being reliable, responsible, and dependable, and fulfilling obligations.

Independence

Job requires developing one's own ways of doing things, guiding oneself with little or no supervision, and depending on oneself to get things done.

Initiative

Job requires a willingness to take on responsibilities and challenges.

Integrity

Job requires being honest and ethical.

Persistence

Job requires persistence in the face of obstacles.

Self-Control

Job requires maintaining composure, keeping emotions in check, controlling anger, and avoiding aggressive behavior, even in very difficult situations.

Stress Tolerance

Job requires accepting criticism and dealing calmly and effectively with high-stress situations.

Tools & Technology

This list below describes the machines, equipment, tools, software, and information technology that workers in this occupation will use.

Tools

  • 3-axis computer numerically controlled CNC milling machines
  • Adjustable hand wrenches
  • Air conditioning units
  • Air heaters
  • Air purifying respirators
  • Angle plates
  • Autocollimators
  • Automated vision systems
  • Automatic microhardness testers
  • Band saws
  • Belt conveyors
  • Bench grinders
  • Bioreactors
  • Blow molding machines
  • Boring tools
  • Centrifugal casting machines
  • Computer numerical control CNC vertical lathes
  • Computer numerical controlled CNC milling machines
  • Computerized numerical control CNC lathes
  • Computerized numerical control CNC routers
  • Computerized numerical control CNC turning centers
  • Conductivity meters
  • Coordinate measuring machines CMM
  • Deburring tools
  • Desktop computers
  • Dial calipers
  • Dial indicators
  • Digital calipers
  • Digital hardness testers
  • Digital logic probes

Technology

  • ABB CPM4Metals
  • AVEVA InTouch HMI
  • Advanced Dimensional Management 3D-GD&T
  • Artificial intelligence software
  • AspenTech Aspen InfoPlus
  • Autodesk Algor Simulation
  • Autodesk Inventor
  • Beginner's all-purpose symbolic instruction code BASIC
  • Bentley MicroStation
  • Blink
  • C
  • C++
  • CNC Mastercam
  • Cadence PSpice
  • Cimatron computer-aided design and manufacturing software
  • Computer aided design CAD software

Duties

Duties are job behaviors describing activities that occur on multiple jobs. The generalized and detailed work activities described in the list below apply to this occupation.

  • prepare safety reports
  • prepare technical reports or related documentation

  • test equipment as part of engineering projects or processes

  • advise clients regarding engineering problems

  • explain complex mathematical information

  • communicate technical information

  • develop safety regulations

  • schedule employee work hours

  • perform safety inspections in industrial, manufacturing or repair setting
  • inspect facilities or equipment for regulatory compliance
  • examine engineering documents for completeness or accuracy

  • compile numerical or statistical data

  • diagnose mechanical problems in machinery or equipment

  • estimate materials or labor requirements

  • understand engineering data or reports
  • understand service or repair manuals
  • understand technical operating, service or repair manuals

  • analyze engineering design problems
  • analyze effectiveness of safety systems or procedures
  • evaluate engineering data
  • evaluate manufacturing or processing systems
  • analyze technical data, designs, or preliminary specifications

  • record test results, test procedures, or inspection data

  • conduct performance testing
  • inspect manufactured products or materials

  • use spreadsheet software

  • read blueprints
  • read production layouts
  • read technical drawings
  • study time, motion, or work methods of workers

  • use drafting or mechanical drawing techniques
  • use technical information in manufacturing or industrial activities
  • use technical regulations for engineering problems
  • use mathematical or statistical methods to identify or analyze problems
  • follow statistical process control procedures

  • confer with engineering, technical or manufacturing personnel

  • design manufacturing processes or methods
  • improve test devices or techniques in manufacturing, industrial or engineering setting

  • draw maps or charts
  • calculate engineering specifications

Tasks

The list below outlines specific tasks that a worker in this occupation is called upon to do regularly.

  • Adhere to all applicable regulations, policies, and procedures for health, safety, and environmental compliance.
  • Analyze, estimate, or report production costs.
  • Assist engineers in developing, building, or testing prototypes or new products, processes, or procedures.
  • Calibrate or adjust equipment to ensure quality production, using tools such as calipers, micrometers, height gauges, protractors, or ring gauges.
  • Conduct statistical studies to analyze or compare production costs for sustainable and nonsustainable designs.
  • Coordinate equipment purchases, installations, or transfers.
  • Create or interpret engineering drawings, schematic diagrams, formulas, or blueprints for management or engineering staff.
  • Design plant layouts or production facilities.
  • Develop manufacturing infrastructure to integrate or deploy new manufacturing processes.
  • Develop or implement programs to address problems related to production, materials, safety, or quality.
  • Develop production, inventory, or quality assurance programs.
  • Develop sustainable manufacturing technologies to reduce greenhouse gas emissions, minimize raw material use, replace toxic materials with non-toxic materials, replace non-renewable materials with renewable materials, or reduce waste.
  • Identify opportunities for improvements in quality, cost, or efficiency of automation equipment.
  • Monitor and adjust production processes or equipment for quality and productivity.
  • Oversee equipment start-up, characterization, qualification, or release.
  • Oversee or inspect production processes.
  • Prepare layouts, drawings, or sketches of machinery or equipment, such as shop tooling, scale layouts, or new equipment design, using drafting equipment or computer-aided design (CAD) software.
  • Prepare production documents, such as standard operating procedures, manufacturing batch records, inventory reports, or productivity reports.
  • Provide advice or training to other technicians.
  • Recommend corrective or preventive actions to assure or improve product quality or reliability.
  • Select cleaning materials, tools, or equipment.
  • Select material quantities or processing methods needed to achieve efficient production.
  • Set up and operate production equipment in accordance with current good manufacturing practices and standard operating procedures.
  • Compile and evaluate statistical data to determine and maintain quality and reliability of products.
  • Test selected products at specified stages in the production process for performance characteristics or adherence to specifications.
  • Study time, motion, methods, or speed involved in maintenance, production, or other operations to establish standard production rate or improve efficiency.
  • Read worker logs, product processing sheets, or specification sheets to verify that records adhere to quality assurance specifications.
  • Verify that equipment is being operated and maintained according to quality assurance standards by observing worker performance.
  • Evaluate industrial operations for compliance with permits or regulations related to the generation, storage, treatment, transportation, or disposal of hazardous materials or waste.
  • Aid in planning work assignments in accordance with worker performance, machine capacity, production schedules, or anticipated delays.

Learning Resources

More information on this occupation may be found in the links provided below.

A World In Motion (AWIM) Science and Math Can Be Fun

A World In Motion brings math and science principles to life. The programs are exciting and interactive and make learning fun. Laws of physics, motion, flight and electronics are learned and then demonstrated as students build cars, skimmers and gliders and conduct experiments with electricity and electronics. The program consists of four, free hands-on physical science curricula.

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American Museum of Natural History Adventures 2007 Summer Camps

Summer Adventures 2007 includes hands-on investigations, behind-the-scenes tours, and visits with Museum scientists. Some topics include: Fossils and DNA, Ocean Adventures, Mythic Creatures, Destination Space, Robotics and more!

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Camp Ulster County Community College

Camp Ulster has athletic, artistic, and academic camps that provide new challenges and enriching experiences. A few of the camps are: Blowfish Robocraft Camp, NASA Academy of Future Space Explorers Camp, Web Design for Teens Camp, Astronomy Camp and More!

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Center for Integrated Manufacturing Studies (CIMS)

CIMS works with business and government to find cost effective solutions to specific problems within industry. CIMS represents a dynamic collaboration of in-house technical experts, as well as academic, industry and government resources. Located on the campus of Rochester Institute of Technology, their unique, world-class facility houses three centers, four major programs, and an all-encompassing training program.

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College Tech Prep, Accelerated College Enrollment (ACE)

Incorporating both school and work based instruction in a comprehensive and nonrepetitive curriculum, College Tech Prep provides opportunities for job shadowing, internships and college credit.

Learn More
College Tech Prep:Accelerated College Enrollment (ACE)

Incorporating both school and work-based instruction in a comprehensive and non-repetitive curriculum,providing opportunities for job shadowing, internships and college credit.

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Cooper Union Research Internship Program

The Research Internship Program provides a great opportunity for high school students to tackle research problems in a college setting. Interns work in teams on applied research projects under the constant guidance of Cooper Union undergraduate teaching assistants. Each project is supervised and mentored by Cooper Union faculty and covers fields such as civil, chemical, electrical, mechanical, biomedical and environmental engineering; mathematics, chemistry, physics and astronomy.

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Cornell University CATALYST Program

Cornell Association for the Technological Advancement of Learned Youth in Science and Technology CATALYST Program is a one-week summer residential program for rising high school sophomores, juniors, and seniors from underrepresented backgrounds. CATALYST seeks to advance diversity in engineering and especially encourages members of groups underrepresented in the fields of math, science, and engineering (African American, Latino/a, or Native American) to apply.

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Cornell University CURIE Academy: For Girls Who Dream Big

The CURIE Academy is a one-week residential program for high school girls who excel in math and science, enjoy solving problems, and want to learn more about careers in engineering.

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Edison Exploratorium

The Edison Exploratorium is a prototype for the future of engineering interaction worldwide originating in the Original Tech Valley, Schenectady, New York. It is a unique, hands on workshop environment exploring the past, present and future of engineering.

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Engineer Girl

Includes career descriptions, salaries and working conditions, career planning and life skills.

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Engineering technicians

Visit this link for additional information on this career from the Occupational Outlook Handbook; a publication produced and maintained by the United States Department of Labor.

Learn More
Engineers Week

Engineers Week promotes recognition among parents, teachers and students of the importance of a technical education and a high level of math, science, and technology literacy, and motivates youths to pursue engineering careers in order to provide a diverse, vigorous and informed engineering workforce.

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FIRST 2007 Power Puzzle Challenge

The 2007 Challenge theme has been announced! The Global Power Puzzle alternative energy resources and meeting the global demand is it! How do our personal energy choices to heat our homes, fuel our cars, charge our cell phones, power our computers, or even download music to our iPods impact the environment, economy, and life around the globe? Which resources should we use and why? Explore how energy production and consumption choices affect the planet and our quality of life today, tomorrow, and for future generations.

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Greatest Engineering Achievements of the 20th Century

How many of the 20th century's greatest engineering achievements will you use today? A car? Computer? Telephone? Explore the Greatest Engineering Achievements of the 20th Century list of the top 20 achievements and learn how engineering shaped a century and changed the world.

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Imager for Magnetopause-to-Aurora Global Exploration (IMAGE) Education Center

The IMAGE mission showed us space around the Earth is anything but empty, and that plasma clouds can be imaged and tracked just as we do from space for Earth's surface weather. IMAGE's Education Center provides information about auroral science and the Earth's magnetic field. The site includes links to pictures, movies, math exercices, activities and more.

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InDemand Magazine

Check out InDemand. It connects today's students with the careers of tomorrow. Each issue explores careers in a different high growth industry. It provides students as well as guidance counselors, parents and teachers with interesting and relevant information about career opportunities, education, the skills needed for various jobs and resources to explore careers and tips about how to help students build successful futures.

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Infinity Project

The Infinity Project brings math and science lessons to the real world. It delivers a dynamic new high school engineering curriculum that's easy to use and impactful through simple, powerful classroom technologies, professional development for instructors, and web-based teacher support.

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Institute of Industrial Engineers

Founded in 1948, IIE is an international, non-profit association that provides leadership for the application, education, training, research, and development of industrial engineering.

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Materials Research Society:The Materials Gateway

With an eye toward advancing the cause of interdisciplinary research with a ?materials-blind? society vision?the Materials Research Society was founded. The Society's core principles include interdisciplinary, focused symposia, and greater interaction among researchers among the ever-expanding field of materials science.

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Materials Science and Engineering Careers and Resources

If you are interested in a career in Materials Science and Engineering or just want to learn more about this exciting field you've come to the right place! This site is also of interest to those interested in metallurgy, ceramics, plastics, semiconductors and composites.

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Minority Introduction to Engineering and Science (MITES)

MITES(Minority Introduction to Engineering and Science) is a rigorous six-week residential, academic enrichment summer program for promising high school juniors who are interested in studying and exploring careers in science, engineering, and entrepreneurship.

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Monroe Community College High School Engineering Competition

Monroe Community College High School Engineering Competition includes three events. SumoBots: design an electric powered SumoBot with the force to push an opponent's SumoBot off a round table having a 7-foot diameter. Auto Safety : design and build the lightest model car body that will protect 2 extra large eggs during a collision with a concrete block and have the styling and features that would make it an appealing choice to a car buyer. And Wooden Bridge: design and build a wooden bridge with a mass less than 25 grams that will support the maximum load at mid-span.

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National Academy of Engineering (NAE)

The National Academy of Engineering (NAE) mission is to promote the technological welfare of the nation by marshaling the knowledge and insights of eminent members of the engineering profession. This is a portal for all engineering activities at the National Academies, which along with the NAE include the National Academy of Sciences, the Institute of Medicine, and the National Research Council.

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National Math and Science Initiative, Inc. (NMSI)

Improving American students' performance in math and science coursework is the most effective way to increase the United States' global competitiveness.NMSI is a non-profit entity created to raise funds for the improvement of math and science education in the U.S. NMSI plans to award grants in up to 10 states for training and incentive programs for AP and pre-AP courses and up to 10 colleges and universities for the replication of UTeach in fall 2007. Over the next five years, NMSI plans to make additional awards for the expansion of both programs.

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Onondaga College for Kids

Onondaga's College for Kids is one of Syracuse's most popular summer programs for students 8 to 14 years of age. A kaleidoscope of academic and recreational courses are offered, including how space transportation works, how to mix math with food, learn about the environment in the world around you and design, construct, and test a vehicle that is powered by a single mousetrap.

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Polytechnic University Summer Research Institute

The Summer Research Institute of Polytechnic University provides talented high school students with educational opportunities in science, engineering and mathematics beyond those regularly available in course and laboratories at students' high schools. Students engage in independent research in university laboratories under the guidance faculty mentors.

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Society of Automotive Engineers (SAE)

The Society of Automotive Engineers, International, (SAE) has been a catalyst in advancing the mobility industry for 100 years. SAE is your one-stop resource for standards development, events, and technical information and expertise used in designing, building, maintaining, and operating self-propelled vehicles for use on land or sea, in air or space.

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Society of Manufacturing Engineers

As the world's leading resource for manufacturing information and knowledge, the Society of Manufacturing Engineers promotes an increased awareness of the value of manufacturing among industry professionals and the general public, while introducing young people to exciting career options in the field.

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Southwest Airlines Adopt-A-Pilot

Ready to Earn Your Wings? The Southwest Airlines Adopt-A-Pilot program is a four-week program that packs math, science, geography, history and creative writing into a sky-high educational adventure for hundreds of classrooms across the nation. The program unites students with Southwest Pilots. The students track their adopted Pilot's journey and complete curriculum developed in cooperation with the Smithsonian?s National Air and Space Museum, the National Association of Teachers of Math and Science, and other education specialists.

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Strange Matter

Discover the secrets of everyday stuff! Tackle the four big things materials scientists study. Understanding how that stuff is put together, how it can be used, how it can be changed and made better to do more amazing things - even creating completely new kinds of stuff: that's what materials science is all about.

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Suffolk County Community College Science and Technology Entry Program (STEP)

The Science and Technology Entry Program develops the abilities and skills of students to prepare them for entry in careers in math, science, technology and the licensed professions. STEP serves underrepresented and economically disadvantaged students in selected school districts, grades 7 to 12.

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TeachEngineering Resources for K12

Engineering is all around us. TeachEngineering Resources for K12 uses engineering as a vehicle to integrate math and science fundamentals. All lesson plans are based upon age-appropriate national and state science, technology, mathematics and engineering educational standards.

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Tech-Interns, The Source for Undergraduate and Graduate Science and Engineering Internships

This site is an online clearinghouse for information regarding extra-curricular study and employment in technical and science fields. The features of this site include not only a search engine for internship and co-op opportunities, but also links to many other helpful websites on internships, post-graduate employment, scholarships, and financial aid.

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TryEngineering.org

This resource for students,ages 8 to18, their parents, their teachers and their school counselors will find this portal about engineering and engineering careers, to be helpful for young people to better understand what engineering means, and how an engineering career can be made part of their future.

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Ultra-Efficient Engine Technology (UEET) Kid's Page

The Ultra-Efficient Engine Technology Program (UEET) is a NASA program whose members are working to develop and create new propulsion technologies which can be turned over to US companies. Working together with the American companies UEET hopes to enable a new generation of cleaner, high-performance aircraft. UEET Kid's Page includes colorful Engine Technology background information pages for students, games and activities and complete lesson plans.

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