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STEM

John O. Harney: Trying to raise the employability of New England's college students

Via the New England Board of Higher Education (nebhe.org)

BOSTON

On June 28, the New England Board of Higher Education (NEBHE) convened members of the Commission on Higher Education and Employability (CHEE) in Providence to discuss concrete ways in which New England employers, education leaders and policymakers can work together to ensure a successful, equitable workforce future.

The Commission comprises high-powered educators, employers, economists, policymakers and several students. It is chaired by Rhode Island Gov. Gina Raimondo, the self-described “action-oriented” chief executive who has brought Johnson & Johnson, Virgin Pulse and Vistaprint Corporate Solutions to the Ocean State and attracted national attention with her plan for free college tuition.

NEBHE has historically been interested in higher education’s connections with economic and workforce development. Now, there’s a new urgency. As NEBHE President and CEO Michael K. Thomas wrote in an op-ed in the Providence Journal the day before the Commission convened, “Our region faces a fast-changing modern economy, as well as challenging demographic shifts, and it’s time that we optimized how higher education works with other stakeholders in our regional economy—starting by providing our students with the right skills to match tomorrow’s jobs.”

Disconnects everywhere

The Commission has a tall order. Job One is to get educators and employers simply to speak to one another.

In a recent Gallup study, 96 percent of college representatives said they felt confident in their institution’s ability to prepare students for the workforce, yet only 11 percent of business leaders agreed that today’s college graduates have the skills and competencies that business needs. Also the cultures are very different.

Kelli Vallieres, a NEBHE associate and CEO of Sound Manufacturing, a Connecticut provider of metal fabrication, recounted an “externship” she has worked on with the local high school that took ages to put together. Why? Partly because schools have so many mandates put on their time, said Vallieres.

Vermont state Rep. Kate Webb, a Commission member, added that employers have difficulty articulating the skills they need. Rounding out the dysfunction, students struggle to represent the value of their foundational skills, intelligence, adaptability and resilience … making it hard for employers to assess their strengths.

Several Commission members agreed on a need to address the disconnect between the culture of employers on one hand, and educators on the other.

Working on a plan

To help the Commission develop recommendations due out later this year, the membership is divided into working groups. At the June 28 meeting, working groups focused on: "Effective Use of Labor Market Data & Intelligence; Targeted Higher Education Partnerships; and New Economy Tech Skill Bundles''.

New Hampshire economist and Community Colleges Chancellor Ross Gittell and Andrea Comer, vice president with the Connecticut Business & Industry Association Education and Workforce Partnership, are co-chairs of the working group on Targeted Higher Education Partnerships.

Their working group embraced the full range of education providers—including public, private and new kinds of credentialing organizations—to prepare students and faculty with the talents demanded by the economy.

Gittell recounted “takeaways” from the inaugural meeting held May 31 in the Rhode Island State House. Among them: Students need opportunities for “work-integrated learning” where they learn at the workplace perhaps while earning credits or other credentials. To be attractive to employers, they also need a combination of “foundational” skills (a preferable term these days to “soft skills”) such as resiliency and industry-specific skills. There is also a need to integrate career planning early in student lives. A role for organized labor. And a regional outlook. Gittell used the example of Portsmouth, N.H., landing a big company that chose the New Hampshire seaport partly due to its proximity to Boston, Mass.

Another key to the Commission’s work, said Gittell: Industry needs to come to the table with money.

But co-chair Comer offered a caveat. She noted that Connecticut is still struggling to recover from the recession. GE and Aetna rubbed salt in the wound with their recent decisions to leave the Nutmeg State. We need to do more to encourage employers to stay, rather than asking more of them, Comer warned.

No picking winners and losers

Gittell said he cringes when he harkens back to the government policy of picking industry winners and losers. Instead, he said, New England should promote its diversity of industries across the whole region, not just in Boston and Cambridge.

The working group suggested that the Commission: Define common characteristics of best practices, create a template of partnerships that work, devise a taxonomy of workforce skills, develop granular credentials, analyze local demographic differences and produce a regional playbook along the lines of the “Communities that Work Partnership” sponsored by the Aspen Institute and funded by the U.S. Department of Commerce and private foundations.

Also the working group noted intersections between workforce investment boards (WIBs) and public schools in industry clusters. Some suggested looking at teaching itself: adapting inquiry-based, rather than traditional, techniques and creating “externships”—essentially summer internships to help teachers adopt techniques that energize students.

The group also coalesced around suggestions to watch return on investment and even to develop a “business case” for the Commission itself.

Rhode Island School of Design (RISD) President Rosanne Somerson righted the ship, noting that the Commission’s goal is to create  engaged citizens and culture as much as jobs, which should at least be meaningful and fulfilling.

Love the sound of burning glass

Matt Sigelman, CEO of Burning Glass Technologies, spoke to the Commission about his firm’s belief that jobs have a “genome.” If you want students to have successful middle-class lifestyles in the 21st century, he told the audience, they need certain skills. Among those skills: data science. The jobs are not in data science per se, said Sigelman, but more than three-quarters of middle-skill occupations require digital skills. Digital skills should be integrated into every major at every degree level.

The value proposition of liberal arts seems to rise and fall. But conventional wisdom suggests that liberal arts grads will do fine with employers as long as they also have the more practical, industry-specific skills employers are looking for. For example, a student studying the classics or anthropology may be more successful with social media experience.

Hybrid jobs that mix skills sets are also the most human, so less easily automated, Sigelman said, because people increasingly will be asked to manage automation. The Rhode Island School of Design now prefers the term “intelligent augmentation” to “artificial intelligence” because it feels less like a human job-eater and more like a blender of human judgment and data.

Most of the jobs that require a college degree also want a lot of work experience, Sigelman noted. He also said there has been a larger increase in management jobs than in STEM (science, technology, engineering and math) since the Great Recession; yet “middle-skills” workers (with more than a high school diploma, but less than bachelor’s degrees) are more likely to manage than MBAs.

Several employers ask for bachelor’s degrees in much larger percentages than the share of current workers in the occupation who actually have them. For example, 60% of job postings for administrative assistants ask for a college degree, but only 20 percent of current AAs have one. They do increasingly need digital skills. But Sigelman says a college degree is a proxy for some skills that could be offered in a more efficient way.

There’s a perception that those with college degrees can advance in an organization without needing more formal education.

Burning Glass has reported that among job ads that explicitly request credentials, most requested just one of 50 specific creds. Still, certifications and other signals such as academic minors and transcripts that show job-market skills help students demonstrate workplace skills. Also, Seligman added, “brand” matters for a higher education institution (HEI), including regional HEI brand recognition.

Employers are generally likely to invest in employees’ last-mile applications—training in the technical skills that employers want and that change fast, but colleges don’t offer.

Also different kinds of HEIs leave a different mark on the skills conversation. Kerry Healey, the president of Babson College and former Massachusetts lieutenant governor, observed that skills like resilience and adaptability, banishing fear of failure and learning how to be creative are things that need to be “baked in” to the curriculum for everyone. Last-mile skills like coding and computer languages and internships can be pursued extracurricularly on Fridays and weekends.

Sigelman suggested the Commission develop “communities of practice” in areas such as career services. Degrees matter, but how do we make sure they represent a bundle of skills, making them more relevant and sustainable over the life of a career?

Chasing talent

Talent is the name of the game, stressed Travis McCready, president & CEO of Mass Life Sciences Center (MLSC), in his expert testimony to the working group on Targeted Higher Education Partnerships.

He told the group that the MLSC offers a “wide aperture” for talent through middle and high schools, vocational-technical schools and postsecondary education. He added that pharmaceutical companies such as Novartis, Amgen and Shire have migrated toward talent hotspots in the Bay State.

Here, too, an equity component surfaces. School districts with high free- or reduced-lunch populations are specially invited to apply to the MLSC for funds to buy high-quality lab equipment. Once you get to college level, McCready warned, it’s too late if you’ve never worked with a graduated pipette.

Community colleges also get access to MLSC funds for lab facilities and courses. But McCready acknowledged that the MLSC is not an expert, so it serves as convener of industry and community college presidents to encourage relationships. The MLSC offers what are essentially internships and apprenticeships. They are not all lab-related. Life sciences companies need finance and liberal arts specialists too, but, McCready said, the liberal arts students who tend to get hired have some understanding of science.

Noting that more half of New England college students attend independent HEIs, Roger Williams University President Donald Farish pointed out an irony in spending big money to lure private industry but skimping historically on spending for private higher education. Especially when the demography tells us we need to bring in more students.

McCready said the MLSC has worked with Harvard and MIT, as well as small private colleges that fill a niche, such as Wellesley College with its efforts to increase women in life sciences and Regis with its work to accelerate immigrant entry in the disciplines. The MLSC had also experimented with Dean College, which traditionally had no life sciences.

Nevertheless, 70 percent of UMass grads stay and work in the state, and McCready pointed out that money invested in UMass in recent years was “catch-up” after years of low state investment.

Despite all its successes, the MLSC hasn’t cracked the code yet on black and Latino students, said McCready. Only 6 percent of Latino students go on to get hired by industry.

Equity imperative

The tough record with black and Latino students relates to the Commission’s so-called “Equity Imperative.” NEBHE wants to ensure that the workforce vision serves all New Englanders. It’s not only a matter of social justice, but also as a matter of sound economics in the slow-growing region. Maine, Vermont and New Hampshire have the oldest median-age populations in America. And where there is population growth, it’s among groups—both urban and rural—that have not been well-served by education or the job market.

All babies are equal at nine months old; but by age 2, socioeconomic factors begin having an impact on their cognitive development. An attainment gap appears. By high school, a dropout gap has taken has taken hold … soon to translate into an “employability gap.”

Underrepresented groups, for the purposes of addressing the employability gap, include: students of color, students from low-income families and first-generation students. Susan Brennan, associate vice president of university career services at Bentley University, added students with disabilities to the groups New England should bring into the equation. Some could add children of incarcerated people and scores of other sources of inequity.

At Eastern Connecticut State University—which is about 30 percent students of color—lower-income, minority and first-generation students often had no cars, so had difficulty traveling off campus to internships. White students got most of the internships, said President Elsa Núñez.

Eastern’s Work Hub eliminates that need, allowing students to develop practical skills doing real-time work assignments without having to travel off campus, and providing the insurance company Cigna with a computer network and facility where its staff could provide on-site guidance and support to Eastern student interns. Moreover, Núñez observed that the boss in Eastern’s internships automatically becomes the mentor—important in the employability discussion.

Commission member Paul LeBlanc, the president of Southern New Hampshire University and guru of competency-based education, said a critical factor is to provide internships and mentors for students of color; also cultural, not academic, mentorship is needed for students who get the feeling they don’t belong, as Núñez said of her own beginnings in college.

In case anyone still doubts an equity imperative, LeBlanc cited the hard data from Deloitte showing benefits from diversity in teams. RISD’s Somerson said diversity is crucial to innovation. Núñez had a solution for companies that want a fast track to diversity: Forgive student loans.

Rhode Island College President Frank Sánchez added some keen insights to the equity panel.

Why is the conversation missing the large segments of unemployed and underemployed people who are not connecting with traditional educators? How do you formally embed employability in the curriculum? How can we bolster compassion in nursing and teaching, or help businesspeople connect with diverse populations?

Sánchez added that ironically many of the things that HEIs do to raise stature—such as increasing tuition and raising standards—hurt the most vulnerable students. To which Núñez remembered a mentor’s quote: “We can be an elite institution without being elitist.”

Some pointed out a simple overlooked truth on equity: the profound importance of stable state need-based financial aid, which has been generally up and down in New England.

Labor-Market Information

A working group on labor-market information (LMI) weighed real-time vs. traditional LMI. Real-time LMI has the virtue of capturing in-demand employability skills. But working group members agreed that the two types of LMI are complementary and should be bolstered by local intelligence, conversations with employers, local economic drivers and student body makeups.

Berkshire Community College President Ellen Kennedy suggested that the information be tweeked for different sectors to establish benchmarks and skillsets. And that exemplars offer best practices. And perhaps that the Commission identify five essential knowledge points to brand New England and make it attractive for businesses to settle.

Working group members hailed recent LMI initiatives including WorkReadyNH and Maine is IT!, a U.S. Labor Department-funded partnership with Maine community colleges. They also floated the idea of a partnership to share costs of working with outfits such as Burning Glass to look at resume data to study career progressions and occupational transitions. And they spoke of communicating how LMI can be used to improve institutions’ business practices.

Student voices

A key aspect of the NEBHE Commission is the voices of students.

Great Bay Community College alumna Heather Bollinger thought that the region could benefit from a regionwide version of WorkReadyNH. That’s a Granite State program that teaches students interviewing skills so they are prepared to enter the workforce.

Another student rep on the Commission, Mariella Lucaj of the Community College of Rhode Island, recommended marketing the Commission’s work directly to students—and encourage them think differently about their skills—and job prospects.

Desirae LeBlanc, a University of New England student on the Commission, recommended finding a way to push students to want to seek out internships; spoke of her own experiences with service learning programs helping her with employability skills.

Alas, in a nod to today’s sometime-linear thinkers, one of the student reps suggested it’s critical that a student know where they’re going. That led to a few comments about “pathways,” once all the rage, but apparently losing some luster. (Though Comer acknowledged that such structure is especially beneficial to students from underserved areas.)

Even the term “skills” was questioned as connoting lower-level work. Then, oh no, “competencies” and “proficiencies.” Add to that “scaffolding” and “emerging digital skills” and “putting ideas in a parking lot” and you see why at several points, Commissioners spoke of the need to create a sort of glossary showing definitions in the new language of career education.

Last point: We need to include all stakeholders at the table in at least yearly engagement to sustain the work. Perhaps a New England consortium for partnerships?

John O. Harney is executive editor of The New England Journal of Higher Education.

 

Rebecca Eidelman: Rebranding STEM for Millennials

What if schools in the U.S. treated their innovation and emerging technologies with as much glamour as they give to athletics? At the New England Board of Higher Education’s (NEBHE) recent Advanced Manufacturing Problem Based Learning (AM PBL) Showcase, industry representatives addressed this question and discussed ways to improve the branding and appeal for STEM (science, technology, engineering and math) careers.

The PBL Projects’ AM PBL Challenges—interactive multimedia curriculum modules that promote student-centered learning—are part of the solution to prepare students for the workforce and garner excitement for the rewards of STEM careers, including those inadvanced manufacturing.

During the AM PBL Showcase, the need for curriculum that both prepares student with 21st Century skills and propels them toward STEM fields emerged as an ongoing concern for many of the industry partners with which NEBHE collaborates. Making STEM careers exciting is what drives Don Bossi. The president of FIRST Robotics has made his organization a leader in fostering enthusiasm for STEM activities through robotics competitions. FIRST Robotics, a nonprofit organization that sponsors an after-school robotics program to engage young people in STEM, also focuses on recruiting diverse students who may not have otherwise had access to robotics instruction.

Bossi’s keynote address at the AM PBL Showcase focused on two issues: the quantity of students entering the STEM workforce and the quality of new employees’ skills. Remarking on a study pointing out “leaks” in the STEM pipeline, Bossi commented, “The year this study was done [2008], between ninth grade and college graduation, only four percent of our students actually ended up getting college STEM degrees. How do we stop the leak?”

Bossi would support the STEM pipeline between education and the workforce by increasing the number of students who graduate high school and intend to pursue STEM careers, especially in emerging technologies like robotics. Bossi would also provide students with problem-solving skills for the workforce as NEBHE’s PBL projects aim to do. “As we all know,” he said, “it’s not just important enough to know science, technology, engineering and math, but it’s important to know how to work as a team, how to pick up other twenty-first century skills that really determine impact and effectiveness in so many different settings.”

Unlike robotics, however, the larger sphere of advanced manufacturing struggles with its image—still mistakenly viewed as dirty by people who don’t know how clean and technologically complex the field has become. The industry is also held back by a shortage of workers and a skills gap between incoming employees and those about to retire. NEBHE’s PBL Projects team has been working to demystify the profession and foster interest in AM.

A report released by the New England Council (NEC) and Deloitte earlier this spring, Advanced to Advantageous: the Case for New England’s Manufacturing Revolution, also supports the effort to prepare students for real-world problems with engaging curriculum and problem-solving skills. New England needs to take the demand for more manufacturers seriously: Nearly 60 percent of manufacturing jobs can be classified as AM. According to the report, Advanced Manufacturing—from working with lasers to advanced robotics—is responsible for $62.6 billion of the region’s gross domestic product (GDP).

The Deloitte/NEC report advocates a six-point strategy to address the looming workforce shortage in AM. Among the actions it puts forward, rebranding is one essential step in getting students to consider advanced manufacturing careers. A 2011 report from Deloitte and The Manufacturing Institute, "Boiling Point? The Skills Gap in U.S. Manufacturing,'' notes that among 18- to 24-year-olds, manufacturing ranked last in a list of preferred careers. One of the more effective models to changing student perceptions are the NEBHE PBL Projects’ Challenges, which are considered by the 2015 report to be “holistic” curriculum models that could be used to effectively change the perceptions held by students about manufacturing careers. AM PBL Challenges, or curricular modules, let the problem drive the learning, which, though difficult for students at first, appeals to their sense of curiosity. Teachers are able to step back and let students pursue answers to their questions, investigate ill-structured problems (just like the ones they will discover in the workforce) and assemble solutions with teams (including team members whom they may not have chosen themselves—the same situation they will find in a work environment).

To align the career expectations of millennials with the needs of the manufacturing companies, rebranding needs to begin with the people closest to students: parents, career counselors and teachers, many of whom do not advocate for using STEM skills in manufacturing due to its association with dangerous and outdated working conditions. A recent survey commissioned by the Alcoa Foundation and SkillsUSA found that 89% of parents underestimate the minimum wage of advanced manufacturing employees by $12, and one in five parents believes that manufacturing jobs don’t offer benefits or job security in a recession. In fact, the opposite is true: according to the U.S. Department of Commerce, entry-level manufacturing engineers have an average annual salary of $60,000; 90% of manufacturing workers receive medical benefits; and manufacturing employees have the highest job tenure in the private sector.

These benefits, however, do not necessarily attract students to manufacturing careers. According to the same study, “67% of manufacturers reported a moderate to severe shortage of available, qualified workers, and 56% anticipate the shortage to grow worse in the next three to five years.” Increasing the number of students pursuing STEM professions is vital to the survival and growth of the advanced manufacturing industry.

With increased awareness about the opportunities for stable, high-paying and in-demand jobs in the manufacturing sector, the skills gap that is of such concern to the industry may begin to close. In an effort to supply students with the vital 21st century skills they need to thrive in the workplace, NEBHE will be scaling up its efforts with a PBL Resource Center to continue disseminating Challenges from the AM PBL, STEM PBL, and PHOTON PBL Projects. The PBL Resource Center will also focus on professional development and training to extend the reach of its resources among educators. After the Showcase, Kelli Vallieres, president and CEO of Sound Manufacturing, in Old Saybrook, Conn., commented on scaling up the PBL projects, saying, “The PBL projects have provided the foundation for changing teacher practice. In order to gain real traction, I believe we need to work with administrators to begin the systemic changes necessary to impact teacher practice on a large scale.”

With support from industry leaders and efforts across New England to rebrand the mechanical professions, NEBHE will be in a uniquely powerful position to advance its curriculum throughout the region.

Rebecca Eidelman is project coordinator for Problem Based Learning (PBL) Projects for the New England Board of Higher Education (nebhe.org), from whose Web site this comes.

Nicole Schepker: Educating N.E.'s next manufacturers

This comes courtesy of the New England Board of Higher Education (nebhe.org)

BOSTON

Manufacturing typically conjures images of dimly lit dirty and dangerous factories crowded with workers, the kind seen in photos of New York City’s garment district in the early 1900s and in some developing countries today. But because of advances in technology, the field of manufacturing—what we make, how we make it, where and by whom—is rapidly changing. As access to technologies continues to pervade our world, the opportunity for everyone and anyone to become a “maker,” inventor, hobbyist or entrepreneur is greatly increased, changing the definition and perception of what it means to be a manufacturer.

Maker Spaces, Fabrication Labs, Hacker Spaces and Tech Shops have been popping up throughout the states and across the globe for several years, democratizing technology, education, art and design with tools such as computer aided design (CAD) software and 3D printers. The buzz has grown so loud around making that the president got involved. Last month, President Obama hosted the first-ever White House Maker Faire celebrating makers, tinkerers, inventors and entrepreneurs, declaring June 18 a National Day of Making. With science, technology, engineering and math (STEM), critical thinking and problem-solving abilities high on the president’s list of skills that must be attained by American youth to succeed in the 21st Century global economy, it is easy to see why Obama would embrace the Maker Movement, which promotes entrepreneurship, creativity, exploration, innovation, failure (yes, it’s OK to fail!), teamwork and self-directed learning.

“Alongside our partners, my administration is getting tens of thousands of young people involved in making,” wrote Obama in a presidential proclamation declaring a National Day of Making. “We are supporting an apprenticeship program for modern manufacturing and encouraging startups to build their products here at home.”

U.S. manufacturing is viewed as crucial to innovation, productivity, jobs, the economy, exports and national security. Obama has championed the manufacturing and “advanced manufacturing” sectors as viable, rewarding career paths for Americans, launching a plan to create a network of up to 15 regional Institutes for Manufacturing Innovation (IMIs) as part of a National Network for Manufacturing Innovation (NNMI).

For New England—a historical manufacturing hub that lost 60% percent of its manufacturing jobs over the past three decades—the return of American manufacturing along with the demand for advanced manufacturing solutions is a critical growth opportunity for the region, according to James Brett, president and CEO of the New England Council (NEC).

The region is not alone. A 2011 report conducted by the Manufacturing Institute and Deloitte Consulting indicated that 600,000 manufacturing jobs had gone unfilled nationwide, while 80 percent  of manufacturers interviewed for the report anticipated an increase in vacancies in senior-level staffing due to the  retirement of Baby Boomers.

NEC reports that despite the decline in manufacturing jobs across New England, Vermont, New Hampshire and Connecticut now boast manufacturing concentrations, or clusters, far exceeding the national average. And with the region’s strengths in education and research, Brett posits that New England is well-poised for resurgence in the sector, and particularly in advanced manufacturing, which has been defined as “manufacturing that entails rapid transfer of science and technology into manufacturing products and processes.”

A poll by Northeastern University as part of the report the Innovation Imperative: Enhancing the Talent Pipeline, released in April 2014, found that the vast majority of C-Suite executives surveyed believe that colleges and universities should expand opportunities for experiential learning (97 percent) and teaching about entrepreneurship (89 percent). Faced with industry’s concerns that college graduates are ill-prepared to enter the workforce, many institutions of higher education are embracing industry partnerships, while companies view investing in education as a direct action they can take to prepare future employees.

To this end, the New England Board of Higher Education  (nebhe.org) has been forging industry-education connections for over a decade. Through its Professional and Curriculum Development program, NEBHE has partnered with industry since 2006 to develop problem based learning (PBL) curricula with companies in optics and photonics, sustainable technologies, and advanced manufacturing. NEBHE’s Problem Based Learning (PBL) Projects, funded by the National Science Foundation’s Advanced Technological Education program, turn real-world problems that partner companies actually faced into multimedia case studies called "Challenges” used in secondary and postsecondary STEM courses across the U.S. The PBL Projects conduct professional development workshops with groups of high school and college STEM faculty, teaching teachers how to implement PBL in the classroom. Access to the PBL Projects’ Challenges is free and open-sourced.

Students of PBL become active participants in their own learning as they encounter new and unfamiliar learning situations where problem parameters are ill-defined and ambiguous—just like in the real world. When using the PBL approach, learning occurs collaboratively in small groups, problems are presented before any formal preparation has occurred (the problem itself drives the learning) and new information is acquired via self-directed learning. Research shows that compared with traditional lecture-based instruction, PBL improves student understanding and retention of ideas; critical thinking and problem-solving skills; motivation and learning engagement; the ability to work in teams; and the ability to transfer skills and knowledge to new situations.

NEBHE'S  Advanced Manufacturing Problem Based Learning (AM PBL) project focuses on New England’s advanced manufacturing sector, and has partnered with companies to develop Challenges in advanced quality systems, medical devices, nanotechnology, semiconductors and sheet-metal fabrication.

“Problem based learning is such an important aspect of career development and skill development, and it’s not something that is fully utilized in classroom settings,” said Kelli-Marie Vallieres, president and CEO of Sound Manufacturing, in Old Saybrook, Conn., an AM PBL Challenge partner on a sheet-metal fabrication problem.

“Students don’t always understand the practical aspects of what they’re learning—like how important the math is connected to what they are actually going to do in the workforce,” said Vallieres. “Without problem based learning, that disconnect continues, and it impedes the interest that some people have to move into certain careers.”

If we are to pursue a national mantra that says we must graduate global citizens and 21st Century learners, then educators need to graduate to a style of 21st Century teaching, leaving behind our one-size fits all, sage-on-the-stage approaches. In an age when students can access any information they choose from the palm of their hand, teachers are becoming valued more as mentors and guides than absolute fountains of knowledge.

 

The amount of knowledge available coupled with greater accessibility to information makes it even more imperative that educators connect what students are being taught in the classroom to the real world. This is exactly the reason that problem based learning is successful. Not only do students drive their own learning, they are exposed to new concepts, careers and real-world applications while gaining the skills needed to become lifelong learners who can succeed in a variety of fields.

“One challenge we have, as a growing technology company in a really high-growth industry, is hiring,” said Jamie Beard, counsel and director of operations for FastCAP Systems, a Boston-based AM PBL partner with whom the project developed a Challenge around manufacturing high-powered batteries using nanotechnology. “We can hire associate degrees, we can hire master’s degrees, undergraduate degrees, PhDs. We can use all of those types of people, but the one thing that they need to have is a broad science, technology, and engineering background and a good foundation of math.” She praised the program for getting kids “excited about science, technology, engineering and math,” noting those skills will underlie “the jobs of the future.”

Heather Dunn, senior director of special programs at CIRTEC Medical Devices, another AM PBL Challenge partner, echoed the sentiment: “From CIRTEC’s perspective, because we need good quality, technical personnel, anything that we can contribute to science education, and particularly local science and engineering education, is valuable to us.”

The project developed an AM PBL Challenge with CIRTEC in East Longmeadow, Mass., on dramatically increasing production of a power pack used in a lifesaving implantable medical device.

To see more of what Kelli, Jamie, Heather and other AM PBL Challenge partners had to say about the value of industry-education partnerships, visit the PBL Projects Gallery.

The Challenges developed with NEBHE’s industry partners were first used with participating educators at the AM PBL project’s weeklong professional development Institute at Boston University’s Photonics Center. Thirty-three STEM educators and teacher education faculty members from each of the six New England states were selected through a competitive process to participate in the Institute. More than half participate with a partner at a secondary or postsecondary institution to promote pathways to higher education and careers in STEM for their students.

Of course, NEBHE is not the only institution working directly with advanced manufacturers. The Connecticut College of Technology’s Regional Center for Advanced Manufacturing develops and provides resources to educators and students interested in learning new technologies in manufacturing. New Hampshire’s Advanced Manufacturing Partnerships in Education (AMPed) is also an example of a statewide program developing curriculum and training to prepare students to enter the growing advanced manufacturing sector. In Massachusetts, the online resource AMP it up! informs students, parents, guidance counselors and other stakeholders about the state’s burgeoning advanced manufacturing sector and the jobs available to graduates. Support for these kinds of direct connections  between education and industry will lead to an increase in STEM, critical thinking and problem-solving skills, and students’ pursuit of STEM careers.

Ultimately, no one knows the current and future needs of industry better than industry members themselves, making it imperative that advanced manufacturers and other STEM professionals continue to work with educators to develop curriculum, provide guidance and opportunities for students and teachers that will make STEM education relevant, while preparing students to succeed in the ever-changing workplace of tomorrow and today.

Nicole Schepker is project coordinator for the PBL Projects.