Business Leaders, Elected Leaders, and Education Leaders continue to push initiatives to promote, fund and improve Career Technical Education.
Strengthening Career and Technical Education for the 21st Century Act (H.R. 5587) -The bill will empower state and local leaders by simplifying the application process for receiving federal funds and providing them more flexibility to use those resources to respond to changing education and economic needs. These reforms will help state leaders focus on preparing students for the workforce—not duplicative or overly prescriptive federal requirements—and enable them to determine the best way to do so.
Four C's for Careers Act (H.R. 5663) - This Act may be cited as the ``Critical Thinking, Collaboration, Communication, and Creativity for Careers Act'' or the ``Four C's for Careers Act'' - To amend the Carl D. Perkins Career and Technical Education Act of 2006 to deliver high-quality career and technical education opportunities, and for other purposes.
Workforce Innovation and Opportunity Act - The WIOA Final Rules include reforms that will affect more than a dozen programs receiving $10 billion in annual training and education funding and programs that serve approximately 20 million Americans each year.
Putting Learner Success First - The vision calls for a systemic revitalization of the education system, and identifies Career Technical Education's (CTE) strengths and role in this transformation. Advance CTE and six national organizations are stepping up to the challenge to continue on the path of fierce dedication to quality and equity, while providing the leadership necessary to continue to re-examine, grow and transform the education system.
The complete CAD teaching tool. Featuring software plus a full curriculum and interactive courseware, SolidWorks® Education Edition is your all-inclusive resource for teaching 3D mechanical CAD, design validation, and data management.
Technology in Action
All of us suffer from some sort of phobia, be it high places, closed areas, water, etc., and for most of these there is a cure. The phobia affecting many people over the past 40 to 50 years is Technology Phobia, or the uncertainty of how technology would affect their lives and their work.
Let us be honest with ourselves; all of us suffer from technology phobia to some degree or another.
How often we wish for another chance
To make a fresh beginning,
A chance to blot our mistakes
And change failure into winning--
And it does not take a new year
To make a brand-new start,
It only takes the deep desire
To try with all our heart
To live a little better
And to always be forgiving
And to add a little laughter
To the world in which we're living--
So never give up in despair
And think that you are through,
For there's always a tomorrow
And a chance to start anew.
Article for Review
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.”
Follow The Money
It has been said, “The worst thing about a grant is getting awarded”. Then you have to do everything you said you were going to do. Hopefully, over the years as a grant writer and grant manager I learned a few things. For example, early on I discovered it is better to under-promise and over-deliver. That way the funding agency feels that they really got their money’s worth. Better yet is to align your performance with the client’s expectations. Frequent communication with the client confirms their satisfaction with your performance and provides the Grant Manager with the opportunity to make adjustments if necessary.
RFPs (Request for Proposals) are competitive. There are limited resources designated to accomplish specific goals. I have reviewed grants by my competitors after the release date of the grant awards and have found that grant review teams have little regard for finesse. The Funding Agency recognizes that past performance based on verifiable time-proven experience minimizes the funder’s risk. Funders are interested in having the work get done that accomplishes their mission, on time, to the outcomes, and within the approved budget.
Tech companies called for the federal government to invest in more STEM Education. An issue the industry hopes to influence in the run-up to the 2016 presidential election. Representatives of Microsoft, Facebook and Amazon said they face difficulties finding qualified staff, a handicap they believe other US companies face and that threatens the strength of American industry. The issue is so widespread that it affects fields outside of technology, including pharmaceuticals and health care, they said.
"This is no longer a Microsoft, Facebook or Amazon issue," Brad Smith, Microsoft's chief legal officer said at the Information Technology and Innovation Foundation's panel in Philadelphia. "Companies are only as good as the people we hire."
The Art of the Future
FIRST ALLIANCE represents a system of learning connecting experience, simulation, play, design, art, culture, philosophy, inventiveness, and experimentation. The Atlanta GENIUS and other FIRST ALLIANCE competitors are reflecting the future to us today.
TI and the Texas Instruments Foundation have committed "Power of STEM Education" (POSE) grants to a variety of nonprofit partners and educators in targeted communities across the U.S. where the company has a major design or manufacturing presence, including California, Maine and Texas. Giving is focused on collaborative strategies to improve student success and teaching effectiveness in STEM education. Special emphasis is given to programs that reach female and minority students who are underrepresented in science and engineering careers today.
"Our focus is on collaborative strategies to improve teaching effectiveness and student success in STEM education," said Andy Smith, executive director of the TI Foundation and TI director of corporate philanthropy. "We seek out effective partners who share our goals, make strategic investments and develop long-term relationships with educators and their organizations to support proven, successful programs that can be scaled and replicated. Working together, we believe all students can move forward and experience greater success in STEM."
The Drone Smartz™ document is a 15-Module project to learn about UAV / Drone flying, the legal issues cited by the Federal Aviation Agency (FAA) & the Federal Communications Commission (FCC) and common sense safety issues. Safety should be introduced as the reoccurring theme that guides all operations for this course.
Drone Smartz™ was written with two 7 Module segments. The first seven Modules will involve (head knowledge) learning about drones, various legal issues, government regulations and safety. The second seven Modules will focus on hands-on experience and allow us to differentiate between a “STEM” program focusing on secondary school students or adult occupational technology implementation. There will be midterm and final exams in this program and opportunities for between session (homework) Lab opportunities.
At the Microsoft Philanthropies Enabling Opportunities summit, policy-makers, educators, researchers and non-profit organizations gathered in Singapore to discuss the challenges, opportunities and ideas required around building an ecosystem to bring the benefits of technology to their local communities. Christopher Clague, Senior Analyst at the Economist Intelligence Unit (EIU), shared key findings from EIU’s Education 2030 research project.
In terms of education, the developed and developing world are facing different types of demographic problems. Developed countries such as USA, UK, Japan and Germany face the problem of aging and graying societies. The older demographic draws more resources, leading to rising healthcare and pension costs and putting a strain on government budgets. As a result, public spending on education as a percentage of GDP is projected to fall across much of the developed world.
New, robust partnerships between the public and private sectors are needed today to attract and educate the young scientists, technologists, engineers and mathematicians for tomorrow.A stem is the main trunk of a plant, and STEM — short for Science, Technology, Engineering and Mathematics — is the main trunk of our economy. A plant that gets too little water will fail to grow. Unfortunately, that’s also what’s happening to STEM education in our country today. We’re simply failing to attract and educate a sufficient number of young scientists, technologists, engineers and mathematicians. Demand for these workers is growing fast, but our pool of talent isn’t.
The situation is especially perplexing, given that a career in STEM would seem to be highly attractive. Consider:
· Demand for STEM jobs is growing fast. Jobs across all occupations are forecast to increase by only 14 percent between 2010 and 2020. By contrast, jobs in biomedical engineering are expected to increase during that same period by 62 percent. In medical science, jobs are expected to grow during that period by 36 percent. And in systems software development, to grow by 32 percent.
"With an anticipated skills gap of 2 million jobs by 2025, the manufacturing industry needs to attract and inspire the next-generation workforce." SME, an organization that trains and develops the manufacturing workforce, has launched a high school membership program to educate the next generation on the value of manufacturing and encourage careers in the field. Manufacturing offers career opportunities for every education level ranging from skilled trades that require a high school diploma or GED to engineers, designers and programmers with bachelor’s and master’s degrees, as well as researchers and scientists with doctorates. There are currently more than 600,000 jobs available in manufacturing, with the expectation that number could grow to 2 million by 2025 because of an aging workforce and new technologies creating more jobs.
“Manufacturing needs to attract the next generation of talent,” said Christopher Wojcik, vice president of SME Membership. “SME is dedicated to educating students on the career opportunities in manufacturing; our high school student membership is a program to help the future workforce better understand the industry and ultimately fill the workforce pipeline.”
"Congress needs to pass the budget to support the next generation of innovators," says John King Jr., in an article published by U.S. News and World Report. From June 17 through 23, our nation celebrates the National Week of Making. This week recognizes that makers, builders and doers – of all ages and backgrounds – always have had a vital role in pushing our country to develop creative solutions to some of our most pressing challenges.
As President Barack Obama has noted, during this week, "We celebrate the tinkerers and dreamers whose talent and drive have brought new ideas to life, and we recommit to cultivating the next generation of problem solvers."
Samsung Electronics America (SEA) announced the launch of the company’s 6th annual Samsung Solve for Tomorrow (#SamsungSolve) program and the call for entry submissions. Samsung’s flagship citizenship initiative is one of many innovative programs designed to address the growing education gap and career development shortage in science, technology, engineering and math (STEM) in the U.S.
Mud, or sediment, is an active part of aquatic ecosystems. Sediment varies widely within and among ecosystems in its biotic and abiotic characteristics. In many ecosystems sediment can release excess phosphorus (a common aquatic pollutant) into the water column causing internal eutrophication.
At the conclusion of the lesson, students will be able to:
• Observe and describe abiotic and biotic characteristics of sediment
• Recognize that the sediment and water in a lake carry phosphorus, which is necessary for life, but can have negative ecosystem effects at high levels
• Describe the difference between experimental control and treatment groups
• Use observations to support conclusions
Society of Automotive Engineers (SAE)
One of the most pressing issues facing industry today is the decline of students enrolling in science and technology programs. This decline and its impact threaten the ability to meet future workforce demands with repercussions to be felt for generations to come.
SAE is actively addressing this issue with programs that bring math and science to life and sow the seeds of endless possibilities for today's students. From the acclaimed A World In Motion® and F1 in Schools™ programs for students in grades K-12, to the challenging, highly-competitive SAE Collegiate Design Series™, along with scholarships and awards, the SAE Foundation helps to inspire the next generation of innovators.