  This course gives a modern introduction to the basic methods in computational physics and an overview in scientific computing. The broad categories of computational physics are Simulation, Visualization and Modeling. Computational physics is now widely accepted as a valid complement to the traditional experimental and theoretical approaches to physics. The course enhances the basic mathematical, numerical, and conceptual elements needed for using a computersupported learning environment as a virtual physics laboratory.
The format of the course has been chosen to simulate physical problems in order for students to become familiar with a typical problem solving. Numerical methods will be applied for solving linear and nonlinear equations, ordinary and partial differential equations, to simulate classical and quantum physical systems.
 Every Academic Year    This course is intended as a course in physics for sophomore students. It is designed to integrate the physical concepts that have been learned by students in many other previously studied courses. It is aimed at supporting students learning to take primary responsibility for developing valid knowledge in various disciplines in physics. The course provides the basic mathematical, numerical, and conceptual elements needed for using a computersupported learning environment as a virtual physics course work and laboratory. Numerical methods will be used for solving linear and nonlinear equations, ordinary and partial differential equations. These methods will be applied to simulate classical and quantum physical systems. These applications will include classical  motion such as : projectile, oscillatory, diffusion, and wave equation; and quantum systems such as: fields, atoms, molecules, crystals, and complex structures.  Every Academic Year    This course is intended as a course in physics for sophomore students. It is designed to integrate the physical concepts that have been learned by students in many other previously studied courses. It is aimed at supporting students learning to take primary responsibility for developing valid knowledge in various disciplines in physics. The course provides the basic mathematical, numerical, and conceptual elements needed for using a computersupported learning environment as a virtual physics course work and laboratory. Numerical methods will be used for solving linear and nonlinear equations, ordinary and partial differential equations. These methods will be applied to simulate classical and quantum physical systems. These applications will include classical  motion such as: projectile, oscillatory, diffusion, and wave equation; and quantum systems such as: fields, atoms, molecules, crystals, and complex structures.  Every Academic Year     Almost Every Academic Year    Basic electronics and electronic device applications.  Most of the time     Many times     Many times     Many times     Every Academic Year 

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