True tekochip, In the schools they learn planed things for future use, but before going to an schools they do the things on their own ways when they are trying to do things in a very first time they think, they use brain, on the other hand after teaching how to do things they will follow just only the steps, they use brain only to keep steps in mind.
Yes AnandY I totally agree with you, I think that those things happen why because of the childhood they have no any parameters to lock at , in generally we called that "Think out of the box" I think that in childhood they are in out of the box when they get older they will go in to the box.
Now I know! I always thought there was a scientific reason, but never realized it. All those decades ago when my parents yelled at me, "GROW UP!" with sternness in their voices, a little "birdie" in my head, said, "NO!", and now, 70 years or so later, it's too late! Oh, well..... maybe the next go-around will be different.
I agree with you on both counts, mrdon. Learning from experience, keeping what works and eliminating what doesn't, finding successful patterns -- it's all a form of intelligence. Sometimes, it's even called wisdom. But as you say, we have to somehow keep in touch with our creativity, and not throw out the creative ideas too readily. That's the hard part.
@Critic: On the contrary, I think constraints force us to be more creative. If it doesn't matter how much something costs, how much it weighs, how long it takes, how easy it is to manufacture, etc. -- then why do you need to be creative in the first place?
You can't come up with creative solutions to problems if you don't understand the problems in the first place. And it takes a lot more creativity to come up with solutions that actually work than to come up with fanciful solutions that don't work. This is why companies hire trained engineers, rather than just finding a bunch of kindergarteners and paying them in apple juice and cookies.
I think a combination of both outlooks is essential. You need a grown-up understanding of the constraints within which you have to operate, as well as a childlike ability to question the "givens."
Joseph. In the appliance industry all designs are definitely evolutionary and not revolutionary. The last really "out-of-the -box" idea brought forth by GE Appliances was induction cooking. Great idea but due to complexities and cost, not really that practical. I had one of the very first prototypes in my home and loved it. When the program was killed, GE came, took the range, gave me a standard product and junked the device. There is no doubt in my mind that the pinnacle of engineering creativity was evidenced by Kelly Johnson's "Skunk Works". The SR-71, F104, U-2, etc. are examples of creativity at work. For those guys, education did not edge out creativity. Great post.
I agree, Debera - and people are very resistant to even small changes, let alone large ones that require a new way of thinking. It's usually so much easier to do things like you have always done them and in this economy of corporate downsizing people are often asked to wear several hats - being creative would increase an already heavy workload. Part of it is also the corporate culture. If an organization encourages creativity as a foundational value - people won't be afraid to offer creative solutions.
Nancy you are absolutely correct ,Kids just dont think what they are saying they are never consious about their talks or conversations.
Secondly what i think is that in our professional enviornment people are never encouraged if they provide any new or creative idea they are always asked to either make some changes in the already existing one or to modify it and if someone tries to creat a new idea then its a bad day for that particular employee .
Debera, I think you make a very good point about children saying whatever is on their minds. As adults, we have learned to subconsciously apply filters to whatever we are thinking for many reasons including those you mentioned - so that by the time it comes out of our minds, it is no longer our original thoughts. I love how kids just say what they are thinking, although I can certainly think of a time or two where that wasn't the case LOL
Using Siemens NX software, a team of engineering students from the University of Michigan built an electric vehicle and raced in the 2013 Bridgestone World Solar Challenge. One of those students blogged for Design News throughout the race.
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.