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Computer Science courses involve studying and understanding the scientific and/or practical applications of computing. CS generally involves learning how to program so one can either write programs to accomplish specific goals or understand how computers operate so as to know how programs other people write operate. Computer science is difficult. The amount of difficulty depends upon how much experience a person has had with computing and how much work one is willing to spend on the tricky task of troubleshooting: finding problems and their solutions. Considering how prevalent and ubiquitous computers are becoming in society, computer sciences are becoming more complex. At the same time, every industry needs computer sciences, or the results of computer sciences. So long as you have the drive and perhaps love for computing, computer science is a worthy study.
MCA is equivalent to ME (Computer Science and Engineering)MCA with B.Sc. (Computer Science) background is equivalent to ME (Computer Science and Engineering).B.Sc. Computer Science (3 Yrs) + MCA (3 Yrs) = 6Years.BE Computer Science (4 Yrs) + ME (2Yrs) = 6 Years.MCA and ME both are equal.Companies are giving equal priority to both MCA and ME.Two Master's Degrees, MCA and ME, are treated Same for jobs and there is no difference in the competence ratings.Both MCA and ME (Computer Science and Engineering) Professional Degree courses, the contents of theory and practical syllabus are Same.MCA and ME Degree holders are Equal to each other.MCA - Master of Computer Applications.ME - Master of Engineering (Computer Science and Engineering).Thanks and best regards to you all.
Science and Technology are the same because Technology is another word for Science and what you do in Technology, you do in Science.Its pretty much the same really.
Analog computing mechanisms can reach a solution much faster than digital computing mechanisms can for the same problem; but to get more digits of accuracy, analog computing mechanisms require expensive high-precision, low-drift, temperature-stable components, while digital computing mechanisms can be expanded inexpensively to as many digits as desired.
It is both. Firstly it is a science. Computing is a science and programming is a science. However, there is an artistic element to it too. Scientifically there are a set amount of commands in any programming language with a strict syntax and rules as to how they can be used. It is up to programmers how they use them to solve a particular problem. Some of them are more creative in how they use them to solve a problem. The different programmers are using the same language and commands and have a full knowledge of the language, but they use them in different ways. Some are better at doing it than others. That is where the art and creativity comes in. Looking at it another way, you can read a book written by a great author, because you know all of the words used in it. However, you would not have been able to create that story yourself. So although you know the same words in your language that the author does, the author is able to think of clever ideas and use the words more creatively than you can. In some ways, programming is the same. So some programmers have that creative flare, so in the way that writing a book is an art form, writing a really good computer program can be an art form too.
Serial computing is executing a task on one computer. Distributed computing is executing a task on multiple computers at the same time.
Information technology is in no way superior than computer science however, both disciplines are useful for different areas of computing. Those from an information technology background are not necessarily inferior to those from a computer science background although for development jobs like software development, computer science is more desirable. People from an information technology background and computer science background can both potentially land in the same occupations, having the same level of expertise in areas such as networking, databases, etc.
Computer Science courses involve studying and understanding the scientific and/or practical applications of computing. CS generally involves learning how to program so one can either write programs to accomplish specific goals or understand how computers operate so as to know how programs other people write operate. Computer science is difficult. The amount of difficulty depends upon how much experience a person has had with computing and how much work one is willing to spend on the tricky task of troubleshooting: finding problems and their solutions. Considering how prevalent and ubiquitous computers are becoming in society, computer sciences are becoming more complex. At the same time, every industry needs computer sciences, or the results of computer sciences. So long as you have the drive and perhaps love for computing, computer science is a worthy study.
Bachelor of Computer Science is a type of bachelor's degree, usually awarded after three years of collegiate study in computer science. In general Computer Science degrees emphasize the mathematical and theoretical foundations of computing, rather than teaching specific technologies that may quickly become outdated. Computer Engineering (Computer Systems Engineering) is a discipline that combines both Electrical Engineering and Computer Science. Computer engineers usually have training in electrical engineering, software design and hardware-software integration instead of only software engineering or electrical engineering.
No, CS deals much more in the theoretical underpinnings of computing, such as logic systems, compilation, etc. etc. Information systems has a much more application focus. No information systems are a more specialized subject. Comuter science covers a broader aray of computer related topics.
no
Cloud computing applications are a program which links devices together for use of the same media. Take a photo on your phone and it's on your computer. It is a service fee.
Not exactly. Although they are very similar, computer science and computer engineering are slightly different. Computer science tends to focus on software and programming. Computer engineering focuses more on hardware, like computer chips and hard drives. There is a bit of overlap though in that computer engineers may do some programming and computer science specialists may occasionally deal with hardware.
The same as today: computing. Applications of computing have changed as price and size of computers have dropped, as more people with different computing needs and wants have been able to get computers.Basic computing applications:Simulation & modelingAccountingStatisticsData storage & lookupetc.
MCA is equivalent to ME (Computer Science and Engineering)MCA with B.Sc. (Computer Science) background is equivalent to ME (Computer Science and Engineering).B.Sc. Computer Science (3 Yrs) + MCA (3 Yrs) = 6Years.BE Computer Science (4 Yrs) + ME (2Yrs) = 6 Years.MCA and ME both are equal.Companies are giving equal priority to both MCA and ME.Two Master's Degrees, MCA and ME, are treated Same for jobs and there is no difference in the competence ratings.Both MCA and ME (Computer Science and Engineering) Professional Degree courses, the contents of theory and practical syllabus are Same.MCA and ME Degree holders are Equal to each other.MCA - Master of Computer Applications.ME - Master of Engineering (Computer Science and Engineering).Thanks and best regards to you all.
In computer science, deterministic algorithm is an algorithm which, given a particular input, always produces the same result. This is used to increase the efficiency of machines.
Grid computing is a name given to a collection of distributed and parallel computing techniques that offer a whole range of advantages - for introductory material and case studies on Grid computing, check out Gridipedia