My husband is a BSEE and now a teacher at a private high school. We've created a Engineering 100 course that he is teaching this year for the first time to show kids how cool engineering is. He has guest speakers, mini-projects, and more to show kids what engineering is and can be. We're hoping to inspire many of them to not give up on math too early, and consider engineering as a career path. Here's a blog I wrote about this class...
The biggest problem with STEM careers is that over the last 20 years 100K's of tech workers have been permanently eliminated from the U.S. workforce. All of these people have sons, daughters, nieces, nephews, and so on, and none of them will tell those young people what a great career STEM is.
NO PR campaign can overcome that.
Someone needs to design a cool looking touch screen Xbox 360 kit that enables the player to reprogram and alter the device software and hardware as the user sees fit.
How about convincing the Manufacturers to introduce a low priced kit version of an Xbox or similar gaming console that the kids can assemble, program, reprogram and change the performance of at their liking, best of all being that it's a kit the price can be lower than they are now.
In my youth it was Heath Kits that were the big thing and as a result many kids that I knew started out into Ham radio, Computers, Television and Test equipment careers.
I still build my own radios, my own test equipment to align maintain and repair these radios, my own PIC controllers to program and operate my radios, all simply because of the fascination with all those wonderful Heath Kits that my Mom would let me buy.
This is the only way that I can see to get some of these kids interested in something engineering related and give them some knowledge into how those expensive toys work other than simply manipulating the controls for 12 hours a day not learning a thing.
JeffL_2, I don't put quite as negative a spin on it as you do -- plenty of us still have engineering careers in the U.S.
My point was that for the younger generation -- the focus of Rick's blog -- excellent grades and an engineering degree (especially an EE degree) are no assurance that they will even have a first job offer, let alone a long career doing engineering work.
A report last year by the NSF documented the statistical trends in the science & engineering labor foce and noted that "from 1993 to 2008, the median age of scientists and engineers in the U.S. workforce rose from 37 to 41. The proportion over age 50 increased from 18% to 27%." So overall, U.S. companies are not hiring younger engineers in sufficient quantity to bring down or to slow the increase in the average age of U.S. engineers.
We can all speculate as to the root causes of this trend, but I personally don't believe that the lack of perceived "coolness" of engineering, or lack of young people's interest in or skill in STEM has anything to do with it.
It is not true that all of our best & brightest young people want to be hedge fund managers, or have expectations of VP-level salaries a couple years after graduation. Many of them do in fact want to be scientists or engineers, and as "any1" mentioned earlier, you see more of them concentrating today in areas like biomedical and environmental engineering, or genetics or pharmaceuticals -- branches of science & engineering in which they foresee a potentially rewarding and stable career future.
Ask them what they think about circuit design or software design and you're likely to get an answer like "it's very interesting, but I'm not willing to move to India or China for a job."
I actually think the article makes a lot of sense. I am an EE, and so are almost everyone replying in this board, but guess what, that is the problem because we are that 13% that find engineering cool despite how popular culture label them. So of course we're puzzled and even offended that STEM has to be "made cool". But the rest of the world doesn't operate that way, why do you think kids are drawn to being rappers/pop stars and NBA players? Everything, good or bad, if you want people's attention to it needs marketing, STEM is no difference, and it's not that difficult. One simple example is the movie Iron Man and how kids find the main character who's a brilliant engineer super cool. God knows how many little seeds of engineering are plant inside the minds of youngsters watching that movie. As cheesy and even untrue that movie is, it does the proper marketing for STEM and we just need more of that!
The "elephant in the room" is that even when there are engineering JOBS there aren't engineering CAREERS because at the first "excuse" (change of strategy) engineers get laid off instead of being retrained for the new requirement. Yes in many cases the position is just outsourced anyway, but even when that happens how frequently have you heard about the outgoing employee having to train the offshore replacement for his OWN job but unable to get the company to put up the resources to upgrade his skillset to the new "requirement" in the first place (assuming that isn't just an excuse too)? I'm old enough to remember when you could take your choice between a "tech track" and a "management track" and yes I do understand why that concept has been obsoleted by worldwide competition. But that just makes it REALLY hard to understand why the concept of "tenure" is still supported and valued in the field of education, but for the engineers who make up the "student body" for continuing education the very NOTION of a stable engineering career is wildly unrealistic! What's "good for the goose" isn't - oh never mind!! But I certainly agree that enticing young students into science fairs and robotic competitions and using "fun" experiences like that to lure them into a field where careers are next to impossible to achieve is just about criminal, although I don't seem to have as much support for that opinion as I would have thought.
I agree with previous comments posted all of u. Engineering is amazingly cool. It is the individual, albeit a student or an engineer, to make the best out of it. It is not that much to credit for the best curriculum, the best lecturers, the schools or even the most popular companies dying to work for.
As some have earlier mentioned, such publicity only shows to non-engineering sector that engineering is lacking self esteem and hungry for recognition.
Still, the focus should be increasing the job value of engineering career because youngsters look forward to financial sustainabilty for retirement or at least a job to work for long term employment.
"This connection must be made early in education"
Absolutely. My sister is a VP of Engineering at Boeing - in a recent STEM related interview, she stressed how growing up with a father who was an architect, industrial designer and always working on "cool" things was critical to her early interest in engineering. Like you, she believes that the "cool" of STEM needs to be introduced at a young age. I think that means schools need to have neat demonstrations, builder projects and so on to encourage an interest in design, making and innovation.
What are the engineering and design challenges in creating successful IoT devices? These devices are usually small, resource-constrained electronics designed to sense, collect, send, and/or interpret data. Some of the devices need to be smart enough to act upon data in real time, 24/7. Are the design challenges the same as with embedded systems, but with a little developer- and IT-skills added in? What do engineers need to know? Rick Merritt talks with two experts about the tools and best options for designing IoT devices in 2016. Specifically the guests will discuss sensors, security, and lessons from IoT deployments.