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Youth Want Jobs, Not Antiquated Expensive Degrees

Educators of Technical, Technology and STEM education continue with us, to advocate for hands-on skilled training. Thought leaders from around the country have discussed ways to accomplish this through education reform. C. M. Rubin published a discussion with Charles Fadel.

Contemporary education is failing our students because we are stuck in a curriculum designed for a different century, We need to re-examine college entrance requirements (and their tests). They hold change hostage to antiquated and incomplete requirements. Massive adaptation must be demanded by parents and educators alike. Without these changes, we will be unable to adapt curricula to reflect modern needs. It starts with creating a framework for WHAT we need to teach, which must be comprehensive yet concise and actionable


CARBON CAREER & TECHNICAL INSTITUTE - Jim Thorpe, Pennsylvania - Case Study

CHALLENGE: Small, nontraditional learning spaces lacking the right tools for storage, organization, and efficient workflow
SOLUTION: Create a space-saving, well-organized environment for hands-on and classroom learning experiences that mirror real-world shop environments
BENEFITS: Enhanced classroom learning opportunities; significant cost savings from not having to replace lost tools; tools and parts are centralized, easily located, inventoried, and secure; and increased shop/student productivity
PRODUCTS USED: Workstations, Chairs, High-Density Storage Drawer Cabinets
 
Used in automotive shops around the world, Stanley Vidmar storage and workspace solutions are the perfect way for the educators of tomorrow’s automotive technicians and machinists to incorporate professional-grade products into the classroom experience. At Carbon Career & Technical Institute (CCTI), a dedicated team of instructors equips high school students with the skills and knowledge needed to enter the workforce or enroll in a post-secondary educational program. Using real-world examples to teach essential concepts, their staff applies advanced technology to career and technical tasks in areas including welding, precision machine technology, HVAC, and automotive repair.

Technology in Action

Economic Facts Everyone Should Know

The following set of facts are called the Ten Pillars of Economic Wisdom. These basic laws of economics were developed by The Economic Foundation of New York. It might be called a guide for human's economic life. These ten rules show how simply the economic truth can be told.


Evaluate Cost

Standard practice has been to:

 

EVALUATE THE COST OF
IMPLEMENTING NEW TECHNOLOGY


Survival as a manufacturing nation demands that we also:


EVALUATE THE COST OF NOT
IMPLEMENTING NEW TECHNOLOGY


Ioannis Miaoulis- NCTL STEM

We Are the TE in STEM


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Article for Review

Communication Simulation, Understanding and Implementation

Visualization and model building are skills that technology instructors have been providing their students for some time. Using visualization and the ability to replicate a model are skills that can be enhanced when students are introduced to communication simulation and the process of developing simulated representations of reality. In this article, the authors explain how to develop and design a communication simulation using a physical security analysis of a computer laboratory as the theme of the activity. Communication simulation from the authors’ viewpoint is the use of technology and visualization to allow the student to communicate by using a model

Computer developed simulations are new teaching tools that faculty are starting to use in their classrooms. In this paper, the authors look at one type of simulation, communication, which can be implemented into the classroom using a physical security analysis from a technology/visualization perspective. However, to disseminate this article to a broader audience and to be consistent with the understanding of the terminology used throughout the narrative several terms will be defined using Wikipedia as the resource. As Clark Aldrich states (2009, p. xxxii), “The lack of common terms is a huge problem, and it has substantially hindered the development of the simulation space. Sponsors, developers, and students have not been able to communicate intelligently.”
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Follow The Money

U.S. Department of Education - Investing in Innovation (i3) Grant Competition

The U.S. Department of Education announced the start of the $134 million 2014 Investing in Innovation (i3) grant competition on March 14th, 2014 with the release of the program's invitation for pre-applications for the i3 "Development" grants (up to $3,000,000 each). In its fifth round of competition, the i3 program continues to develop and expand practices that accelerate student achievement and prepare every student to succeed in college and in their careers. The i3 program includes three grant categories: Development, Validation and Scale-up. The Department plans to announce applications for the Validation and Scale-up categories this spring.

Author: 
Scott Brown

News

Illinois Tweaks Licensing Requirements for Technical Education Teachers

The Illinois State Board of Education's Division Administrator for Educator Effectiveness, Emily Fox, said the hope is to make it easier for schools to get people with the skills to teach career and technical education into the classroom. "The licensure requirements to get a CTE license did not change. But we did remove the barrier that said that individuals who substitute teach need to hold a bachelors degree," Fox said. "Individuals who are qualified to teach in a career and technical education classroom can sub without having to get a separate substitute license."


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The Art of the Future

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The Art of the Future

These are stories of high school students and teachers (and public and private partners acting through networks) to do “real world” scientific research and development (R&D) and engineering design. This is the new face of advanced technological education in America’s high schools and community colleges. Job profiles are provided by the National Science Foundation Advanced Technological Education initiative.


News

Why Pursue a Career in Electronic Systems

Eventually every device that plugs in or has batteries will be part of a huge ecosystem that shares information and control with the other devices.  And we are all part of it. Doesn’t it make sense to be looking at careers that are tied directly to this technology? New challenges come on an almost daily basis as new ideas, technologies, and applications are introduced constantly.  And very few things have as big an impact as providing capabilities they never knew were possible, in a way that is easy to control and enjoy. 

Electronic Systems Professional Alliance

BUILDS ACT - Building U.S. Infrastructure by Leveraging Demands for Skills

Act to ensure that workers are prepared with the skills needed for jobs—in fields such as construction, transportation and energy—that would be created by a major investment in infrastructure. Legislators on both sides of the aisle, have expressed support for a significant infrastructure plan to fix the country’s crumbling roads and bridges.

 

A recent study by the Center of Education and the Workforce at Georgetown University estimated that a $1 trillion infrastructure investment would create 11 million new jobs. Of these jobs, nearly half would require skilled job training beyond a high school level. The BUILDS Act promotes partnerships made up of local businesses and industry organizations, workforce boards, labor representatives and education and training providers to support workforce training programs in infrastructure-related jobs.


Colleges Filling Skills Gap by Including Hands-On Training as Part of Curriculum

Change in Education must start at the University level. The following Institutions of Higher Education are leading the way. The NY Times is covering the story. “The economy and employers have changed,” said Louis Soares, vice president of the American Council on Education. “They want you to come in with a hot skill set, ready to go. Colleges are paying attention at different levels to what that means and trying to develop programs.” 

Some are doing that better than others. “Some institutions are very good,” said Gary Burtless, an economist with the Brookings Institution. “They have their ear to the ground, they’re listening to local employers and paying attention to what they need.”

 

Case Western Reserve University

 

Creating 15- or 18-credit minors may be one of the more effective strategies for preparing students to enter high-demand fields. Because a minor requires fewer credits than a major and few, if any, prerequisites, these allow colleges to be more flexible and responsive to changing industries and emerging technologies.


U.S. Armed Forces, STEM Education and the Skills Gap

The U.S. Armed Forces, including the Army Educational Outreach Program (AEOP), have responded to the gap by leveraging their civilian scientists, engineers and laboratories. The branches host learning sessions and competitions and promote mentorships between students and employees with jobs pertaining to STEM throughout the country.

The AEOP has been supporting STEM education for more than 50 years, according to Louie Lopez, the chief of human capital and STEM outreach at U.S. Army Research, Development Engineering Command. He said the programs leverage the Army’s research laboratories and staff in the hope of instilling STEM literacy in students, and they also hope to introduce students to potential STEM tracks inside and outside of the Army.

FIU Teaches Manufacturing Disciplines to Engineering Students

Among the more than 30,000 students attending renowned Florida International University (FIU) in Miami are some 4,000 young men and women pursuing degrees in various disciplines of engineering.  A required course for the mechanical engineering majors is Manufacturing Processes, located in the University’s Engineering Manufacturing Center, a focal point for Civil, Mechanical, Biomedical, Electrical and Computer Engineering, as well as Engineering Management majors.   It is here that they roll up their sleeves and get into the practical side of advanced manufacturing under the guidance of the Center’s coordinator and instructor Richard Zicarelli.

 

FIU Manufacturing

What are States Doing to Recruit and Retain Employees with Cybersecurity Expertise

The threats and challenges continue to mount. Without an umbrella federal framework, government cyber experts work as best they can and with what they already have to address talent shortages and keep current with new methods of attack. Partnerships are critical in keeping abreast of the latest threats, and a future-looking mindset is necessary to create a pipeline of talent at the state and local level.

Cyberattacks have become more concrete to many of us in recent years. More citizens have received communications from governmental entities or companies about possible illicit access of our personal information—and then there are the allegations of the presidential election being influenced through sharing of hacked information.


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Competitions

ROBOFEST

robofest mascot robofest

moto

http://www.robofest.net/

Robofest is an annual robotics festival and competition designed to promote and support STEM (Science, Engineering, Technology and Math) and Computer Science for students in grades 5 - 12 and college students. Robofest challenges teams of students to design, build, and program autonomous robots to compete in the following categories in two age divisions:

  • Game Competition - A team of students competes to accomplish robotics missions using fully autonomous robots. Especially Robofest game puts math skills to the test.
  • Exhibition - Each team has complete freedom to show off any creative computer programmed robotics R&D project.
  • Vision Centric Robot Challenge (Sr. high school and college students - Associate Event)
  • Bottle RoboSumo (aka RoboShove) (Jr and Sr - Associate Event)

Any robotics kits are allowed in the construction of robots. Robofest has multiple venues in the US and several other countries.


Folding and Engineering

Grade Level: 
Middle School
Subject: 
STEM, Pre-Engineering, Design
Provided by TryEngineering -
 
Lesson Synopsis 
The "Folding Matters" lesson explores how engineers have to incorporate folding and unfolding into many mechanical devices including shunts, telescopes, and deployable solar panels for spacecraft. Students work in teams to develop a "foldable" solar panel out of everyday items that can fit into a foil or plastic wrap box, yet be able to expand to 1 foot or about 30 cm, by 3 feet or about 90 cm with at least 80% of the surface comprised of solar panel (aluminum foil). Teams develop their designs on paper, determine what materials they need, build their design, present it to the class, compare their team's design with those of other student teams, reflect on the experience, and share observations with the class.
 
Lesson Focus
Lesson focuses on how the process of folding has impacts on engineering and is evident in nature. Students consider many applications of folding such as parachutes, wings in a cocoon, heart stents, and solar panels in space. They work in teams to create a model out of everyday items of a solar panel that can be folded (for transport) and expanded (in space). Students design their solar panel on paper, build it for transport, and open or test it. All teams evaluate their results, reflect on their design, and present to the class.
 
Lesson Activities 
Students explore how the folding of materials is sometimes critical to the functionality or shipment of a product. Students work in teams to develop a solar panel that can be folded into a small box and then deployed to its original size. The unfolded "panel" will be constructed out of everyday items including aluminum foil and must be at least 1 foot or about 30 cm, by 3 feet or about 90 cm in size when unfolded. Students work in teams to select materials, design the solar panel and engineer the folding process. They build and pack their solar panel into a small box and unfold it to determine damage or functionality. They compare their designs to those of other student teams, reflect on the experience, and share observations with the class.
 

Foundations

Boeing Engineers Create STEM Activities to Challenge and Inspire Students

Boeing, Iridescent's Curiosity Machine, PBS Learning Media and the Teaching Channel have produced a collection of educational materials and tutorials that children can use to engineer an airfoil, find alternative energy sources and design their own satellite, among dozens of other activities.

The activities are intended to develop skills such as the ability to think critically, collaborate and communicate effectively. Boeing engineers worked side-by-side with its partners to develop lesson plans, documentaries and hands-on activities that break down complicated concepts into easy-to-digest resources. All materials and tutorials are available to download for free at Boeing's Educational Resources page. http://www.boeing.com/principles/education.page#/edu_resources

Employment