They use mathematics to calculate angles.
Math is used to determine just about everything regarding computer architecture, from clock speeds and timing cycles to the size of heat sinks. Even the distance light must travel between chip and motherboard RAM is a factor. Capacitor voltages are mathematically determined. Math also factors into manufacturing costs and considerations, of course. Math governs virtually every step of computer design, construction, and distribution.
Engineering is an applied science that is heavily involved with mathematics. Every discipline of engineering (chemical, mechanical, structural, electrical, computer, etc.) uses a vast amount of mathematics ranging from algebra to Laplace Transforms to define, explain and understand the problems that arise with its area of expertise. Many other fields of pure science use mathematics beyond engineering but the aim of engineering is to apply mathematics to real world problems.
A lot. Computer science uses mathematical models, or models derived from mathematics, to define and model a huge portion of theory. Practical application to problems typically involves mathematical methods even for problems seemingly unrelated to mathematics. Candidates for a degree course in computer science, or any other engineering course, should provide a strong background in mathematics.
what is the role of computer in mathematics what is the role of computer in mathematics
yes
You HAVE to be good at mathematics to be good at chemistry, physics and engineering. It's not a handicap, it's a necessity.
Erwin Kreyszig has written: 'Matematicas avanzadas para ingenieria/ Advanced Engineering Mathematics' 'Advanced Engineering Math 8E with Student Solutions Manual Set' 'Advanced engineering mathematics' -- subject(s): Mathematical physics, Engineering mathematics, Toepassingen, Engineering classic 'Kreyszig Advanced Engineering Mathemati' 'Advanced Engineering Mathematics, A Self-Contained Introduction (Maple Computer Guide) (Advanced Engineering Mathematics)' 'Instructor's manual for advanced engineering mathematics' 'Mathematica computer guide' -- subject(s): Data processing, Engineering mathematics, Mathematica (Computer file), Mathematical physics 'Mathematics 8th Edition with Student Solutions Manual and Mathematica Computer Guide Set' 'Advanced Engineering Mathematics 8E with Maple Manual Set' 'Maple Computer Manual for Advanced Engineering Mathematics' 'Differentialgeometrie' -- subject(s): Differential Geometry, Geometry, Differential 'Statistische Methoden und ihre Anwendungen' -- subject(s): Probabilities, Mathematical statistics 'Advanced Engineering Mathematics, Student Solutions Manual and Study Guide' 'Maple computer manual for seventh edition 'Advanced engineering mathematics'' -- subject(s): Maple (Computer program), Engineering mathematics 'Advanced Engineering Math 9th Edition with Mathematica Computer Manual 9th Edition Set' 'Advanced Engineering Mathematics 9th Edition with Wiley Plus Set' 'Kreyszig Advanced Engineering Mathematics' 'Advanced Engineering Mathematics' 'Instructor's manual for Advancedengineering mathematics' -- subject(s): Engineering mathematics 'Mathematica to Accompany Advanced Engineering Mathematics'
off course! why not?......!
Mathematics and physics are both required for computer science and computer engineering degrees; chemistry might not be, depending upon your individual school.
by my information i can tell you that you can take computer engineering for sure if you chose computer science (IT) instead of mathematics.
nothing and everything
Of course, there isn't a reason not to, because mathematics is the language of economics, science and engineering(with the exception of computer programming).
Jim Woodcock has written: 'Software engineering mathematics' -- subject(s): Computer science, Electronic digital computers, Mathematics, Programming, Software engineering
K. A. Stroud has written: 'Engineering Mathematics' 'Engineering mathematics' -- subject(s): Engineering mathematics, Programmed instruction, Problems, exercises 'Differential equations' -- subject(s): Differential equations, Problems, exercises, Laplace transformation 'STROUD:ENGINEERING MATHEMATICS' 'Advanced engineering mathematics' -- subject(s): Programmed instruction, Engineering mathematics 'Further engineering mathematics' -- subject(s): Programmed instruction, Engineering mathematics 'Essential mathematics for science and technology' -- subject(s): Mathematics
No. He made contributions in mathematics, political economics, engineering and computer science.
Engineering is an applied science that is heavily involved with mathematics. Every discipline of engineering (chemical, mechanical, structural, electrical, computer, etc.) uses a vast amount of mathematics ranging from algebra to Laplace Transforms to define, explain and understand the problems that arise with its area of expertise. Many other fields of pure science use mathematics beyond engineering but the aim of engineering is to apply mathematics to real world problems.
Mathematics is the language of engineering (as well as science).
A lot. Computer science uses mathematical models, or models derived from mathematics, to define and model a huge portion of theory. Practical application to problems typically involves mathematical methods even for problems seemingly unrelated to mathematics. Candidates for a degree course in computer science, or any other engineering course, should provide a strong background in mathematics.