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There is no application of differential equation in computer science
In a computer there are many A/D converters that put analog into digital. This signal is what is usually then led into an op amp which in the right configuration can be designed into an integrator or differentiator which is then used to solve differential equations.
Mathematics can be used in coding (computer programming). I have done programming before and it is nothing like mathematics. Although coding languages can be used to solve mathematical equations, the makeup of it is not just math. It is based on math but is not completely reliant on it. For example, <DOCTYPE html> That is HTML coding *what makes up websites*. The amount of math used depends on the coding language. In application programming, there is more math used like: myFloat = 1.23 switchOn = True myFloat * jumpForce = myHeight That used more math in it. It depends on the language of coding. You're welcome. :D
In electric circuit's analysis, nodal analysis present method is a technique of influential the voltage dissimilarity between "nodes" in an electrical course in terms of the stem currents. Nodal analysis is likely when each and every circuit elements' limb constitutive relations have an entrance depiction. It produces a packed mutually set of simultaneous equations for the complex, which can be solved by means of linear algebra by computer. In Loop analysis method, set up and explain a scheme of equations in which the unknowns are loop currents. The currents in a variety of branches of the path are then easily strong-minded from the circle currents. It produces a packed mutually set of simultaneous equations for the complex, which can be solved by means of linear algebra by computer. You can use these laws to find Voltages and Currents of any circuit. If you want to find currents in a specific branch, it will be easy if you use Loop analysis If you want to find voltages at a specific node, it will be easy if you use Nodal analysis
A computer is a person or a machine that performs computations. An accountant is a computer (human computer). A slide-rule is a computer (an analog computer). A smart phone is a computer (digital computer).
J. L Blue has written: 'B2DE' -- subject(s): Computer software, Differential equations, Elliptic, Differential equations, Nonlinear, Differential equations, Partial, Elliptic Differential equations, Nonlinear Differential equations, Partial Differential equations
The computer solves a very large system of partial differential equations.
The Central Processing Unit of a computer (commonly abbreviated CPU) does all the equations necessary for your computer to run.
Carl Dill has written: 'A computer graphic technique for finding numerical methods for ordinary differential equations' -- subject(s): Computer graphics, Differential equations.., Numerical calculations
There are many careers that use variables and equations regularly. Computer scientists, engineers, and scientists all depend on the use of variables and equations. Architects, plumbers, and home decorators also utilize variables and equations.
The computer can help do mathematical equations, store infinite information, and gather information that you may not know.
Solve simultaneous equations of up to 29 variables.
Do you mean "equations involving exponential functions"? Yes,
There is no application of differential equation in computer science
In solving multi variable equations such as in the analysis of MRI or CAT scan data. Several thousand equations in several thousand variables are utilized, impossible without a computer.
The 'Babbage' (Charles) computer was a difference engine. It solved mathematical equations by mechanical (analogue) process. Useful in it's day for compiling tables.
Solving simultaneous equationsThey invented the first electronic computer to enable solving multiple simultaneous equations far more quickly than the manual method.To help find the answer to mathmaticle equations