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Learn the Basics of PHP. No previous language knowledge required.

Learn CodeIgniter by building an Application! Built with AJAX/jQuery calls, and styled with twitter bootstrap!

Create an authorization system with the Laravel 4 PHP framework.

Learn the basics of PHP programming for free.

Learn your first steps into a highly paid career as a PHP Programmer.

PHP Nesne Yönelimli Programlama eğitimi.

Learn Object Oriented PHP while building a secure & scalable authentication system with validation & database handling.

New PDO Database class wrapper, Custom Exception Handler and use of Namespaces (3rd add-on for E-commerce series)

Get your beak '|> wet with this nice little introduction to PHP programming.

Learn the basics of web programming in PHP by building a simple affiliate marketing website that scales automatically.

In this course you are going to learn PHP from scratch so if you dont know PHP this is the right course for you to start

Get punched in the face with PHP. Cover the basics, create a re-usable database class, and build your first application!

Create Membership Based Communities, Discussion Boards, eCommerce Sites and more after Learning User Registration

Learn PHP online with MySQL and Start Developing Web Apps like a Pro!

Curso de desarrollo PHP desde nivel principiante a intermedio

Physics 101 is the first course in the Introduction to Physics sequence. In general, the quest of physics is to develop descriptions of the natural world that correspond closely to actual observations. Given this definition, the story behind everything in the universe, from rocks falling to stars shining, is one of physics. In principle, the events of the natural world represent no more than the interactions of the elementary particles that comprise the material universe. In practice, however, it turns out to be more complicated than that. As the system under study becomes more and more complex, it becomes less and less clear how the basic laws of physics account for the observations. Other branches of science, such as chemistry or biology, are needed.  In principle, biology is based on the laws of chemistry, and chemistry is based on the laws of physics, but our ability to understand something as complex as life in terms of the laws of physics is well beyond our present knowledge. Physics is, however, the…

The physics of the universe appears to be dominated by the effects of four fundamental forces: gravity, electromagnetism, weak nuclear forces, and strong nuclear forces.  These forces control how matter, energy, space, and time interact to produce our physical world.  All other forces, such as the force you exert in standing up, are ultimately derived from these fundamental forces. We have direct daily experience with two of these forces: gravity and electromagnetism.  Consider, for example, the everyday sight of a person sitting on a chair.  The force holding the person on the chair is gravitational, and that gravitational force balances with material forces that “push up” to keep the individual in place.  These forces are the direct result of electromagnetic forces on the nanoscale.  On a larger stage, gravity holds the celestial bodies in their orbits, while we see the universe by the electromagnetic radiation (light, for example) with which it is filled.  The electromagnetic force also makes…

PHYS 102x serves as an introduction to electromagnetism, including charge, electric and magnetic forces, induction, current, and resistance.

This course presents an introduction to quantum mechanics. It begins with an examination of the historical development of quantum theory, properties of particles and waves, wave mechanics and applications to simple systems—the particle in a box, the harmonic oscillator, the rigid rotor and the hydrogen atom. The lectures continue with a discussion of atomic structure and the Periodic Table. The final lectures cover applications to chemical bonding including valence bond and molecular orbital theory, molecular structure, and spectroscopy.

Acknowledgements

The material for 5.61 has evolved over a period of many years, and, accordingly, several faculty members have contributed to the development of the course contents. The original version of the lecture notes that are available on OCW was prepared in the early 1990's by Prof. Sylvia T. Ceyer. These were revised and transcribed to electronic form primarily by Prof. Keith A. Nelson. The current version includes additional contributions by Professors Moungi G. Bawendi, Robert G. Griffin, Robert J. Silbey, and John S. Waugh, all of whom have taught the course in the recent past.

This course covers elementary statistical mechanics, transport properties, kinetic theory, solid state, reaction rate theory, and chemical reaction dynamics.

Acknowledgements

The staff for this course would like to acknowledge that these course materials include contributions from past instructors, textbooks, and other members of the MIT Chemistry Department affiliated with course #5.62. Since the following works have evolved over a period of many years, no single source can be attributed.