The umbrella answer is that any field of engineering which does not deal with computers or automation will have the least programming. This includes civil and structural engineering (building bridges and other infrastructure) and geotechnical and mining engineering.
However, you should expect to use programs as a user in all engineering domains, i.e. Autocad, etc.
Math, Engineering and the Hard Sciences(except biology lol), however, regardless of the major, you have to be good at some level of writing.
Basically, anything that is not a major in computer science, programming, or something similar, will only contain (at the most) a few introductory courses in computer programming - nothing very advanced. The details will most likely vary from one country to another, and within one country, from one college to another.
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A flow chart, debugging, computer language, and Hopper.
You need an engineering degree at the very least.
Accounting Engineering disciplines like mechanical, civil, chemical, industrial, hardware, building, etc Physics Chemistry Economics
Math, Engineering and the Hard Sciences(except biology lol), however, regardless of the major, you have to be good at some level of writing.
Basically, anything that is not a major in computer science, programming, or something similar, will only contain (at the most) a few introductory courses in computer programming - nothing very advanced. The details will most likely vary from one country to another, and within one country, from one college to another.
Most universities that have language degrees do offer their students the chance to study abroad for at least one year of the course. Other disciplines also do this including Engineering. So the answer to the question would be probably be every university which wants to attract good students.
Basically anything related to engineering or science - except computer-related subjects. Engineering majors are those that have the name "engineering" in their names, and a few who don't - such as economy and architecture. You probably shouldn't be afraid of programming; if you are good at math, you should be able to learn that, as well. At least the basic subjects which you are likely to encounter in any engineering course. Also, you'll need SOME writing skills for ANY higher-level career; once again, there is really no reason to be afraid of it. While you might not get a prize for your writing style, you should still be able to write simple reports on your work, for example.
It is a programming problem in which the objective function is to be optimised subject to a set of constraints. At least one of the constraints or the objective functions must be non-linear in at least one of the variables.
Yes, in order to work as an engineering consultant, you will need at least a bachelor's degree. An engineering background is helpful.
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An ambulance at the least, best if it carries intensive care equipment.
C is a programming language, and it's mostly used for Systems Programming. Most kernels these days have at least some C code in them.
I believe it is a gerund, try reading the sentence dropping the word computers: "His hobby is programming" Programming = subject complement of the verb is. At least that is what I got out of this page - http://www.chompchomp.com/terms/gerund.htm
In general, no engineering discipline other than software engineering requires any amount of computer programming. When they need to use a computer, usually there are already suitable software packages that can be purchased to support the engineers.Some examples from where I worked:The optics engineers used a package called CODE V. All they had to do was describe an optical system to it and it did all the ray tracing calculations to verify it.The electronics engineers used Mentor software for schematic capture and circuit simulation. Some digital circuit design was done by writing VHDL code and using a compiler to convert it to hardware.The mechanical engineers that designed cooling systems used heat-flow analysis software (sorry I don't know the name) to find hotspots, etc. before building it.The mechanical engineers also had vibration analysis software (again I don't know the name) to determine if there were any vibration issues.etc.