Computer Scientists have defined three constructs for a structured program or algorithm. Sequence, decision (selection), and repetition.
Often times computer science is similar to conducting "controlled expiraments" which are often taught in early Living Enviornment courses at my school. We teach the students computer science under this category because like our science teachers motto: "we dissect it like a frog" to make it easier to learn. Happy to be of assistance.
The basic parts of computer are CPU, hard drive mouse, keyboard, RAM, monitor, power supply and many more. Some computers may vary slightly in terms of features but they contain most of the ones mentioned.
Theoretical Computer Science has its roots in mathematics, where there was a lot of discussion of logic. It began with Blaise Pascal and Charles Babbage in the 1800's. Pascal and Babbage eventually tried to come up with computing machines that would help in calculating arithmetic. Some of them actually worked, but they were mechanical machines built on physics, without a real theoretical background. Another person in the 1800's was a man named George Boole, who tried to formulate a mathematical form of logic. This was eventually called Boolean Logic in his honor, and we still use it today to form the heart of all computer hardware. All those transistors and things you see on a circuit board are really just physical representations of what George Boole came up with. Computer Science, however, hit the golden age with John von Neumann and Alan Turing in the 1900's. Von Neumann formulated the theoretical form of computers that is still used today as the heart of all computer design: the separation of the CPU, the RAM, the BUS, etc. This is all known collectively as Von Neumann architecture. Alan Turing, however, is famous for the theoretical part of Computer Science. He invented something called the Universal Turing Machine, which told us exactly what could and could not be computed using the standard computer architecture of today. This formed the basis of Theoretical Computer Science. Ever since Turing formulated this extraordinary concept, Computer Science has been dedicated to answering one question:"Can we compute this?"This question is known as computability, and it is one of the core disciplines in Computer Science. Another form of the question is "Can we compute this better?" This leads to more complications, because what does "better" mean? So, Computer Science is partly about finding efficient algorithms to do what you need. Still, there are other forms of Computer Science, answering such related questions as "Can we compute thought?" This leads to fields like Artificial Intelligence. Computer Science is all about getting things done, to find progressive solutions to our problems, to fill gaps in our knowledge. Sure, Computer Science may have some math, but it is different from math. Computer Science is about exploring the limitations of humans, of expanding our horizons and having some fun at the same time.
Genrally speaking no; however Using a computer to do a science project may involve programming -- pattern analysis, data interpretation; many things are available. A science project about computers could cover how to build one from just parts, how to upgrade a PC.
Actually the computer has changed the car for the better. A car is so much cleaner now and does mind boggling things that was once science fiction in the last century. Cars can have as many as 60 computer modules in them....controlling everthing from engines to rain sensors.
many sciences have a strong basis in physics. However, math is the true basic science because no science can exist without it.
There are many people who choose to get a master's degree in computer science. There are a number of colleges and universities that offer computer science as a master's major.
the basic science process has many kinds. *observing *classifying *inferring *communicating *etc.
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There are many diffrerent types of concentrations when you study computer science. It depends what you are interested in.
One of the basic functions of a computer are to input data and then process it. A computer also outputs data and stores data.
There are many reasons why statistics in are in important in a field of computer science. These statistics help improve computers.
There are many, some of which include:* Environmental * Electrical * Electronic * Chemical * Civil * Mechanical * Architecture * Computer Science * ManagerialThere are many, some of which include:* Environmental * Electrical * Electronic * Chemical * Civil * Mechanical * Architecture * Computer Science * ManagerialThere are many, some of which include:* Environmental * Electrical * Electronic * Chemical * Civil * Mechanical * Architecture * Computer Science * ManagerialThere are many, some of which include:* Environmental * Electrical * Electronic * Chemical * Civil * Mechanical * Architecture * Computer Science * ManagerialThere are many, some of which include:* Environmental * Electrical * Electronic * Chemical * Civil * Mechanical * Architecture * Computer Science * ManagerialThere are many, some of which include:* Environmental * Electrical * Electronic * Chemical * Civil * Mechanical * Architecture * Computer Science * Managerial
There are many jobs in the field of Computer Science. One can check out the websites of hospitals and science research companies to see what might be suitable to apply for.
There are two main basic type of models in science. The firs type is the covering law model and the other type is deductive model.
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Mainly, many magnitudes are related through different kinds of formulae. In advanced science you may have to derive your own formulae, but in more basic science, you just use existing formulae.Mainly, many magnitudes are related through different kinds of formulae. In advanced science you may have to derive your own formulae, but in more basic science, you just use existing formulae.Mainly, many magnitudes are related through different kinds of formulae. In advanced science you may have to derive your own formulae, but in more basic science, you just use existing formulae.Mainly, many magnitudes are related through different kinds of formulae. In advanced science you may have to derive your own formulae, but in more basic science, you just use existing formulae.