I had to work with one of those types. Head honcho of SW, nobody could even get an Eprom burned without his approval.
I came up with a good workaround - waited until the officious little twerp went on vacation.
The best way to assure that one gets started on the wrong side of everybody is to announce that "I am better than all of you". That is for certain. The only job that I would not attempt to show somebody like that up on would be the removal of un-exploded ordinance, which is an important job. That would be the task that I would leave to the braggart unchallenged.
Not to go off on the inverse of an arctangent, but the above story reminds me of the joke about the engineer, the physicist, and the mathematician:
A physicist and engineer and a mathematician were sleeping in a hotel room when a fire broke out in one corner of the room. Only the engineer woke up he saw the fire, grabbed a bucket of water and threw it on the fire and the fire went out, then he filled up the bucket again and threw that bucketfull on the ashes as a safety factor, and he went back to sleep. A little later, another fire broke out in a different corner of the room and only the physicist woke up. He went over measured the intensity of the fire, saw what material was burning and went over and carefully measured out exactly 2/3 of a bucket of water and poured it on, putting out the fire perfectly; the physicist went back to sleep. A little later another fire broke out in a different corner of the room. Only the mathematician woke up. He went over looked at the fire, he saw that there was a bucket and he noticed that it had no holes in it; he turned on the faucet and saw that there was water available. He, thus, concluded that there was a solution to the fire problem and he went back to sleep.
Its comforting (but not good) to know that engineers aren't the only ones who can be accused of having the people skills of a porcupine in a crowded swimming pool.
I don't care how good a person is intellectually, if they can't get along with others I'd rather not have them around. A team of good people working together spontaneously is always better than a group of geniuses who don't communicate because they feel others are unworthy of them.
The immediate implication that I take from somebody announcing that they are "better than me" is that they are suffering from a swollen ego. Many career mathematicians are better at math than I am, but few of them are also able to design a circuit and teach a fellow worker how to safely run a lathe, which I can do both. I have worked with some mathematicians who were also good engineers, but a few more who were not. Now, if it had been possible to find one of the eleven roots, then finding the others would have been fairly easy, since, by symmetry, we know that the sum of all n nth roots equals to zero. At least, when expressed as complex numbers, it works that way. No, I am not able to produce a proof for that assertion.
No. The implications of Galois theory (among others) are that roots of polynomials of highest degree 4 have solutions that can be expressed as radicals. Five and above this is impossible (in general*). See for example http://en.wikipedia.org/wiki/Quintic_equation
(*although note the extension to "ultraradicals" by Jerrard and to Hermite's use of Jacobi theta functions and associated elliptic modular functions)
There is also a fascinating old book by Klein, "Lectures on the Icosahedron and the solution of equations of the 5th degree". See also the wiki for icosahedron: http://en.wikipedia.org/wiki/Icosahedron,
from which: "The rotational symmetry group of the regular icosahedron is isomorphic to the alternating group on five letters. This non-abelian simple group is the only non-trivial normal subgroup of the symmetric group on five letters. Since the Galois group of the general quintic equation is isomorphic to the symmetric group on five letters, and this normal subgroup is simple and non-abelian, the general quintic equation does not have a solution in radicals."
So, did you find the poles of the 11th order filter? I thought that's what numerical analysis was far.
Anyway ... most of engineering (or any technical field) comes down to knowing what you don't know, and how quickly you can find it out.
Looking it up in a textbook is not only not cheating, it's expected. Though I suppose these days Google is your friend.
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.