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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


Global Warming Kit

GLOBAL WARMING Experiments–

Conduct experiments with a model atmosphere to learn about Earth’s climate system, weather, and atmosphere. Explore the hydrological cycle. Conduct experiments to model wind and ocean currents. Learn how human activity influences the climate with experiments involving carbon dioxide and the greenhouse effect. Investigate the potential consequences of global warming on humans, ecosystems, and the world’s economies, and learn what we can do to protect the climate.
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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.


A Brighter Tomorrow

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.

Anonymous


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

Silicon Valley Companies Encouraging Local Student to Aspire for High-Tech Jobs

Internships, contests and engineering coursework give teens from the area’s majority-Latino high schools an entree to STEM careers. 

Most students at the high school, on San Jose’s East Side in the southern end of Silicon Valley, are from Mexican immigrant families. Nearly all will be the first in their families to go to college; some will be the first to complete high school. The kids who grow up in Silicon Valley’s Latino neighborhoods, the children of groundskeepers, janitors, cooks and construction workers, rarely get a shot at high-paying, high-tech jobs. Just 4.7 percent of the Valley’s tech professionals are Latino and 2.2 percent are African-American, according to 2015 data from the American Community Survey. By contrast, 57 percent are foreign-born, with many coming from India and China, a local industry group estimates.

Silicon Valley STEM

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The Art of the Future

jim brazell's picture

The Future of Ed Tech Markets

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.


News

FIRST Championship About Way More Than Robotics

It’s about the lessons it teaches its students, the empowerment it creates for its teachers, and the love of learning it fosters among all involved. FIRST Championship is the shining example of everything FIRST values: teamwork within and between teams; learning and on-the-fly problem-solving; “Coopertition®,” which is what we like to call displays of unqualified kindness and respect in the face of fierce competition; and “Gracious Professionalism®,” which encourages high-quality work, emphasizes the value of others, and shows respect for everyone.

FIRST Championship is an incredible experience with many lessons, but there are three that can be applied to every classroom.

1. It’s not about winning—it’s about the journey

Competition is about so much more than who comes out on top. True winning means we’ve inspired a real love of learning in our students, teaching them to solve problems, work collaboratively, and communicate with others. Most important, it teaches them humility and resilience in the face of failure, and the innovation and creativity they need to overcome these obstacles. Our students frequently tell us they leave our program as very different people than when they joined. They transform from timid to confident leaders, from hesitant to adept engineers, and it’s a pleasure for us to watch them grow.


Innovation Lab Program Emerged from International Baccalaureate Authorization

A collective effort by the academic leadership team of the Solomon Schechter Day School of
Bergen County, the development of our Innovation Lab program emerged from our pursuit of
the International Baccalaureate(IB) authorization. As part of that effort, we introduced a design
thinking course in our middle school and hired a part-time design thinking faculty member.
 
Andrew Katz, our Director of Academic Affairs joined the school in mid 2017, bringing with him
experience in design and building innovation labs at two previous independent schools. Once we
created our vision for the program, we were fortunate enough to receive a donation from an
alumni parent, which enabled us to turn our vision into a reality. We then quickly turned our
focus to hiring an experienced director of the lab, and together - along with our science team,
librarian, and educational technology team -  began concentrating on developing a robust
curriculum, designing the space, and focusing on interdisciplinary integration across the school.
 
Our team also visited and initiated relationships with community maker spaces, such as the
Maker Depot in Totowa, N.J., which have offered advice regarding 3D printing and
demonstrated potential tools that will further inspire our design courses.
Solomon Schechter NJ

Dual Mission Education Institutes in Higher Education

As higher education faces declining enrollment numbers, reduced state funding, and accusations that it is elitist and out of reach for many Americans, university presidents, chancellors, and system heads from Wisconsin, Colorado, Florida, Georgia, Arkansas, and Utah, discussed new and innovative models of education that are addressing some of higher ed’s greatest challenges and the shortage of skilled workers. The dual education model can help universities save costs by sharing staff, faculty and infrastructure (it is essentially two schools for the price of one) and keep tuition low. It also allows students who start on a community college track to easily transfer their credits if they choose to continue their studies towards an advanced degree, and to do so much more seamlessly than if they were to transfer to a different school. Additionally, its open admissions policy means more underrepresented populations are getting a shot at a degree in higher education. 

The summit was hosted by Utah Governor Gary Herbert, the Utah State Board of Regents and UVU President Matthew Holland

With higher education increasingly in the cross-hairs, the summit provided a lively and timely debate on the future of higher ed and how to provide improved access to quality programs for students across the spectrum of need and opportunity. The following are transcripts from the conversation and links to the video.


Red Sox STEM Education Days Presented by CITGO

Two special days showcasing the scientific principles that shape the world and America's pastime. In its second year, the "Red Sox STEM Education Days Presented by CITGO" at Fenway Park gives students, grades two through nine, the opportunity to learn about STEM in a unique environment and to enjoy a Red Sox home game.

The first STEM Education Day, held on May 2, 2018, focused on science, weather and engineering. Pre-game activities included a STEM Fair with experiments from local organizations, an egg drop from the top of Fenway Park's historic Green Monster, and a fun coding challenge. The second STEM Education Day, scheduled for May 30, 2018, will highlight NASA and other important space initiatives. Activities will begin with a STEM Fair featuring the Johnson Space Center and Goddard Space Flight Center. These will be followed by a panel with former astronauts and current NASA professionals. In 2017, each "Red Sox STEM Education Days Presented by CITGO" hosted more than 4,000 students. 

CITGO RED SOX

$1.2 Million to Recruit Students to Become STEM Teachers

The grant from the National Science Foundation was awarded to the William & Mary, Robert Noyce Scholarship Program and allocated over five years to increase the number and diversity of students from STEM disciplines who become teachers.

The award was announced by Senators Mark R. Warner and Tim Kaine.

“Enhancing STEM education is a critical priority, and we are thrilled that William and Mary students and the National Science Foundation are partnering with schools in the local community to pursue this important endeavor,” Warner and Kaine said in a joint statement.


Preparing the Workforce to Adapt and Work Collaboratively with Robotic Solutions

Manufacturing in the U.S will build on its current strength by using “technology to empower American potential and ingenuity," according to the Advanced Robotics for Manufacturing (ARM).

The institute, which is a member of Manufacturing USA, a network of regional institutes, looks to robotics to bring about the change. Robotics can “elevate, not eliminate the human roles in manufacturing,” ARM says.

The group’s mission is to help train the future workforce for the high-value careers that will determine the future of manufacturing. And it focuses on lowering the economic, technical, and operational barriers that companies experience in trying to adopt robotic technology.

Advance Robotics for Manufacturing

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Competitions

Samsung's "SOLVE FOR TOMORROW" STEM Education Contest Awards $40,000 to Fifteen Finalists. Grand Prize Winners to Receive $120,000

When their teacher asked them to take a hard look at issues affecting people in their community, one group of students in Missouri noticed that some of their peers with disabilities had trouble staying upright in their wheelchairs. And so, the students got to work with compressed cardboard, cutting and shaping various components to find which ones would create classroom furniture that would make their friends most comfortable. This is the essence of Samsung’s Solve for Tomorrow contest, which challenges students to tap into their STEM (Science, Technology, Engineering and Math) skills to create innovative solutions to problems they observe in their communities. The students in Missouri were recently named one of the 15 national finalists by Samsung Electronics America (SEA).
 


Keeping cool with insulation

Grade Level: 
High School
Subject: 
STEM, Construction
 
Lesson Synopsis 
The "Keep it Cool" activity explores how engineers have met the challenge of keeping foods, liquids, and other items cool. Students learn about heat transfer, vacuums, and insulation and design a system to keep a cup of chilled water as cool as possible for one hour. Students compare their results with that of other student teams and reflect on the lesson.  
 
Lesson Focus
Lesson focuses on the engineering behind keeping food and other items cool. Students work in teams to develop a system to make an insulated liquid container that will keep chilled water as cool as possible for an hour using everyday items. Students will need to devise a way to have a thermometer rest in the water and be able to read the temperature throughout the hour. They plan their design, execute and test their system and share their experiences with the class.
 
Lesson Activities 
Students explore how engineers have developed systems to keep liquids cool and learn about heat transfer, insulation, and vacuums. They work in a team to develop a system to keep a cup of chilled water as cool as possible for one hour using everyday materials, share and test their designs with the class and reflect on the experience.
 

Foundations

"Power of STEM Education" Grants Provided by TI and Texas Instruments Foundation

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."

Employment