Agreed - I'm not complaining; just managing it, and looking forward to completing it. As far as those Universities you listed, well; of course. Those are Designer-Name-Brand institutions. I didn't know they were that high, but they were already over the top, off our lists.
JimT, here are a few college costs (tuition + room & bd) as listed in 2011 U.S. News & World Report Best Colleges book: Northwestern, $52,487; Harvard, $50,724; MIT, $50,446; Yale, $49,800; Bowdoin, $52,880; Middlebury, $52,500. There are more, but I'll spare you the entire, depressing list. Also, remember these figures come from a two-year-old book, and the cost of college goes up every year at twice the rate of inflation. So you're not getting off too badly for someone paying two tuitions.
Actual Case-Study; my two kids: Both are currently attending 4-year State Universities, and living on-campus, in dormitories. Considering the big (4) expenses, being Room, Meal-Plan, Tuition, and Books (In that order) I am averaging about $8,000 per semester, (about $16,000 per year), for each child. Certainly not cheap, but a FAR Cry from the preposterous claims of $50K per year. Its just not that expensive.
A good friend whispered in my ear the other day, "Jim, the biggest raise you'll ever get in your career is the one that comes after college graduation!" Looks like I'm in for about $15,000 in new disposable income next year!
After 35 prior comments, this is a late input; very metaphorically representative of the point I'm about to make. Your article's logic and reasoning are sound, and I find myself in complete agreement; but ~alas~ too late. Because I had held those very myths you identified; and in raising my children, they quite aptly inherited my myths. Too late was my financial logic, which was more closely aligned to your points, that a local CC made a lot of sense. But it was too late; the kids already had their paradigms set, and would not entertain a CC over the dormitory experience. My wife and I are very blessed, however, to have properly instilled the multiple other solid foundational behaviors; that our children are practicing making good choices – even though they both "went-away" to school.
Those attending college for "an experience" are wasting thier time and money! The benefit is in the learning the material and understanding the applications of what is learned. As engineers we need to know the way things work, both electrically and mechanically, which covers a huge amount of learning. Then we need to understand, after we have learned. So there is a lot of effort required, no doubt.
I started in a state university but didn't do well. Then I went to a two year school and did very well. Part of that was due to a much better environment, and much was due to more dedicated teachers, who had nothing else to do except make sure that their students were learning. Then I graduated from a four year "technical institute", almost an honors level student, but not in the top ten.
Unfortunately that wondeful institution no longer exists, today it is a "university", offering an MBA and a whole bunch of other advanced degrees in a wide variety of studies. It also has all of the other amenities of the largest universities, and a tuition rate that was 72 times the rate that I paid, and rising. Today I could not afford to attend that school, and I doubt that my education would be as excelllent as the one that I received. But, of course, it would be the "university experience", just like the concert experience kids get today.
But mostly I have enjoyed my engineering career, even the very high stress times.
I think you've highlighted one of the great advantages to the community college experience, tekochip. Academically, it's a big jump from high school to a major university engineering program. Add the away-from-home living experience to that, and you have a very demanding situation. One of the beauties of the community college is that it lets you do one step at a time.
I agree, community colleges are often overlooked and may be the correct path for some students. Someone I love like a son (OK, it was my son) couldn't handle the sudden change in responsibility of living on his own and being a full time Engineering student. Just make certain to speak to an advisor so that all community college credits will transfer. Typically, electives will not transfer, but general education credits will.
There are advantages and disadvantages to community colleges and four-year colleges. One thing I did notice, having taught at both, is that the students who were on campus living in a dorm were more completely immersed in their education. They were less distracted by other aspects of life.
Now that I have 25 years to look back (wow, I'm geezing!) at my college experience, I did some things right and some things wrong.
Community College is the answer for some people, but like another said, you have to be careful which four year engineering schools will accept their credits.
As another poster mentioned, I started at a branch campus of Penn State and spent my first two years there. It was only 40 miles or so from my parents, and I lived in the dorm, which by itself was a life changing experience! The teachers were generally good but I'll admit that I had trouble adjusting to dorm life and missed way too many classes and had to drop some courses. Getting close to the end of my two years, I visited Main Campus and decided that I'd never survive there and decided to finish at Penn State Behrend, which also offers full "non-T" Engineering degrees. This was a good decision, but I still had to take a ten credit summer session to get caught up. Behrend was big enough but small enough, and the instructors were interested. I also experienced working with some foreign professors which was good experience for working with off-shored work in the future...
I joined a social fraternity and contrary to popular belief, I thought it was a good experience. Sure there were some unpleasantries involved when pledging, but nothing too bad. I was part of a good group of guys which helped cement me socially, which isn't the easiest thing for engineers. (No, there weren't many engineers in my fraternity.) Learning parliamentary procedure was also useful for dealing with business practices once in the workforce.
What hurt my education the most, was my screw-ups my first two years, which bumped me out of order for prerequisites. That, combined with the fact that I'm weak at high level math, contributed to it taking me six years to get my EE degree. But, I wasn't really ready (maturity level) to graduate before then, so it worked out for me. My grades weren't all that great, but somehow my experiences and skills enabled me to enter the workforce and here I am.
Oddly, I think that the most important things I took from college, were the improvement of my writing and communication skills, combined with basic electronics knowledge (and getting my feet wet in embedded software). The specific technical skills required for my jobs have been learned while at my jobs, but the ability to communicate effectively was something required from the start.
Robots that walk have come a long way from simple barebones walking machines or pairs of legs without an upper body and head. Much of the research these days focuses on making more humanoid robots. But they are not all created equal.
The IEEE Computer Society has named the top 10 trends for 2014. You can expect the convergence of cloud computing and mobile devices, advances in health care data and devices, as well as privacy issues in social media to make the headlines. And 3D printing came out of nowhere to make a big splash.
For industrial control applications, or even a simple assembly line, that machine can go almost 24/7 without a break. But what happens when the task is a little more complex? That’s where the “smart” machine would come in. The smart machine is one that has some simple (or complex in some cases) processing capability to be able to adapt to changing conditions. Such machines are suited for a host of applications, including automotive, aerospace, defense, medical, computers and electronics, telecommunications, consumer goods, and so on. This discussion will examine what’s possible with smart machines, and what tradeoffs need to be made to implement such a solution.