User:Barbara.fischerclark/sandbox

Alan Dennis Clark is a British physicist.

He was born in London in 1945. After attending school at St Benedict's School in Ealing he studied physics at the City University London and the Imperial College of Science in London where he received his Bachelor of Science in Applied Physics in 1968 and his Master of Science in Applied Optics in 1969. Alan lives in Germany since the 1980s.

After his education at the university, Alan Dennis Clark worked in the field of industrial optics initially as a designer, later as the MD of Dallmeyer Optics, London (founded by John Henry Dallmeyer, later continued by Thomas Rudolphus Dallmeyer). He later founded his own company working as a consultant and in marketing for various high tech companies.

During his career in applied optics he continued to follow the advances of physics in to providing a better understanding of several phenomena regularly confronting him during his applied physics and optics education, during his practical work experience and when reading scientific reports and articles. Some examples of the issues he considered were:


 * Why does the speed of light have the measured velocity of 2.9979 x 108 m/sec and not some other value?


 * Why does a corpuscular approach work well in some physics calculations and, for the same object, only a wave structure in other cases?


 * Is the motion of an electron around an atom really caused by different physics than the motion of larger bodies such as the earth around the sun (electrostatic / gravity)?

Clark developed the “Theory of Physics in 5 Dimensions”, which he describes in his book "Physics in 5 dimensions – Bye, bye Big Bang", introducing a new perspective in the form of hypothesis common to many fields of physics.

Universal equations of motion of 5-dimensional local space are derived and work for all moving particles and bodies. The theory works in quantum physics for the motion of photons, electrons, nucleons and atoms and in classical mechanics for the motion of large bodies (e.g. Sun, planets etc.).

A review of the structure of the universe highlights the range of issues addressed by "Physics in 5 dimensions" where the results make a case for replacing the Big Bang Theory with the "Theory of Physics in 5 dimensions" as the model, or theory, of the development of the universe.