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Complex Number Calculator Precision 45 1.0.0.4

Complex Number Calculator Precision 45 1.0.0.4: Complex number calculator for scientists, engineers, teachers, and students. Complex Calculator Precision 18, Complex Calculator Precision 27, and Complex Calculator Precision 36. Any formula which works in College Scientific Calculator will work in this calculator. For that some buttons are duplicated. Button Mod stands for modulus and works on the same way as abs button. Button mod stands for modulo. Button Log stands for principal value of complex Log and is duplicated by button ln. Button log(z) works as Log(z)/ln(10)






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Complex Grapher 1.2

Complex Grapher is a graphing calculator to create a graph of complex function. 3D function graphs and 2D color maps can be created with this grapher. You can input complex functions in the form of w=f(z) (where z=x+yi) directly before creacting graphs. Graphs can be copied and saved in the format of bitmap.Complex Grapher is a graphing calculator to create a graph of complex function. 3D function graphs and 2D color maps can be created with this

complex function graphs, complex grapher





Complex Calculator Precision 18 1.0.0.6: Complex number calculator for scientists, engineers, teachers, and students.
Complex Calculator Precision 18 1.0.0.6

complex functions. Complex Number Calculator Precision 18 is programmed in C#. All calculations are done in proprietary data type. The calculator handles mathematical formulas of any length and complexity. Calculation history can be stored into text file or printed. There are ten variables or constants available for storing often used numbers. Prebuilt Common Costants list with fundamental constants. Unlimited User Constants list. Precision of calculations

inverse functions, complex number calculator, hyperbolic functions, complex functions, trigonometric functions



CMATH for Borland C++ 5.3.2: CMATH: Complex math library (cartesian and polar) for Borland C/C++
CMATH for Borland C++ 5.3.2

complex-number arithmetics and mathematics. The following features make CMATH an ideal replacement for other available complex class libraries: 1. High-performance implementation in machine code leads to superior speed. 2. Accuracy and safety are greatly enhanced. 3. Each of the floating-point accuracies (complex(float), complex(double), and complex(extended)) is given its own, individually optimized treatment. 4. Polar coordinates (magnitude;angle

programming, number, math, cartesian, complex, library, polar



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CMATH for Borland C++ (Win32) 5.2

complex-number arithmetics and mathematics. The following features make CMATH an ideal replacement for other available complex class libraries: 1. High-performance implementation in machine code leads to superior speed. 2. Accuracy and safety are greatly enhanced. 3. Each of the floating-point accuracies (complex(float), complex(double), and complex(extended)) is given its own, individually optimized treatment. 4. Polar coordinates (magnitude;angle

programming, number, math, cartesian, complex, library, polar



CMATH for C++ Builder 6.5.6: CMATH: Complex math library (cartesian and polar) for Embarcadero / Borland C++
CMATH for C++ Builder 6.5.6

complex-number arithmetics and mathematics. The following features make CMATH an ideal replacement for other available complex class libraries: 1. High-performance implementation in machine code leads to superior speed. 2. Accuracy and safety are greatly enhanced. 3. Each of the floating-point accuracies (complex(float), complex(double), and complex(extended)) is given its own, individually optimized treatment. 4. Polar coordinates (magnitude;angle

programming, number, math, cartesian, complex, library, polar



CMATH for Visual C++ 5.2.4: CMATH: Complex math library (cartesian and polar) for MS Visual C++
CMATH for Visual C++ 5.2.4

complex-number arithmetics and mathematics. The following features make CMATH an ideal replacement for other available complex class libraries: 1. High-performance implementation in machine code leads to superior speed. 2. Accuracy and safety are greatly enhanced. 3. Each of the floating-point accuracies (complex(float), complex(double), and complex(extended)) is given its own, individually optimized treatment. 4. Polar coordinates (magnitude;angle

programming, number, math, cartesian, complex, library, polar


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