Simula programming is is an artificial language designed to express computations that can be performed by a machine, particularly a computer.
Download Simula programming compiler.
Simula programming Hello world sample source code.
Simula programming tutorial.
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Java controla la creacion de ventanas desde los applet para evitar confundir al usuario que navega por ellas, pero estas restriciones pueden ser esquivadas con facilidad y asi crear ventanas desde los applet simulando ser aplicaciones propias del sistema operativo y asi despistar al usuario. En este ejemplo, se simula mediante la clase “window”, la muy conocida y temible “pantalla azul de la muerte” del sistema operativo windows, que bien podria engañar a un “usuario promedio” que navega por internet, este metodo, tambien podria usarse, añadiendo algunas label, textfield y button al proyecto, por ejemplo para engañar al usuario para “obtener contraseñas”, “obtener datos del usuario”, “introducir algun malware”, etc, aprovechando la ingenuidad de la mayoria de las personas que navega por la red (ingenieria social). pero es solo un ejemplo, no lo hagan 
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Sorry. I left my headset plugged in, so the audio on the camera did not work. However I don’t want to remove this post because I got an encouraging comment from a viewer. ——————– I take a “devil’s advocate” position, and assume that there is no difference between macro processing and language processing – in the sense that macro processors and language processors are universal Turing machines, and can be provided with arbitrarily easy to use user interfaces. This term has been used at least since 1965, when Strachey published details of his GP/M macroprocessor in Computer Journal. A simple example of its use would be to convert the Cobol statement “ADD A TO B” to the Fortran statement “B = B + A”. Is there any difference between a “macro processor” and a “language interpreter”? Just as any computer language has general computational power, so does any macro language (or at least we can add commands to it if necessary, until this point is reached). It is said that the C preprocessor has the power of a universal Turing machine. But this will be of little value to people unless it provides an easy to use interface. A device can be a universal Turing machine without providing an attractive user interface, because it may be too expensive (in today’s computer costs) to provide an attractive user interface. Some Turing machines would take the age of the universe to carry out a simple computation – presumably we might get a result like this if we tried to build a …
Particle Simulation with gravitational effects only. Video sped up 4x or 8x because the original real time computations were slow. Started with particles randomly placed within a bounding sphere, with zero or random velocities. I added collision detection that would group particles and sum their masses, and assumed inelastic collisions that conserved momentum. I was testing to see if this would lead to galactic-like solutions, but seems that magnetic effects and angular momentum may be needed. 3D graphics engine and physics engine written in C.
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Clase 18 – Presentando Resultados de Simulación: Pylab, Trazado Introduction to Computer Science and Programming Presenting simulation results, Pylab, plotting mit-6-00-f08-lec18_300k.mp4
Clase 17 – Modelos Computacionales: Simulación de Caminata Aleatoria (Random Walk) Introduction to Computer Science and Programming Computational models: random walk simulation mit 6 00 f08 lec17 300k
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Clase 18 – Presentando Resultados de Simulación: Pylab, Trazado Topics covered: Presenting simulation results, Pylab, plotting Instructor: Prof. Eric Grimson, Prof. John Gutta mit-6-00-f08-lec18_300k.mp4
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Clase 17 – Modelos Computacionales: Simulación de Caminata Aleatoria (Random Walk) Topics covered: Computational models: random walk simulation Instructor: Prof. Eric Grimson, Prof. John Guttag mit-6-00-f08-lec17_300k.mp4
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