An introduction to the life of werner heisenberg

Waves and photons[ change change source ] Photons are particles much smaller than atoms and protons and electrons. The more photons a lamp shoots off, the brighter the light.

An introduction to the life of werner heisenberg

Wave-Particle Duality Information physics shows that the core creative process in the universe involves quantum mechanics and thermodynamics. To understand information creation, information physics provides new insights into the puzzling " problem of measurement " and the mysterious " collapse of the wave function " in quantum mechanics.

It results in a new information interpretation of quantum mechanics that disentangles the Einstein-Podolsky-Rosen paradox and explains the origins of information structures in the universe. Information physics also probes deeply into the second law of thermodynamics to establish the irreversible increase of entropy on a quantum mechanical basis, something that could not be shown by classical statistical mechanics or even quantum statistical physics.

Information physics investigates the quantum mechanical and thermodynamic implications of cosmic information structures, especially those that were created before the existence of human observers.

It shows that no "conscious observers" are required as with the Copenhagen Interpretation or the work of John von Neumann or Eugene Wigner. Information physics proposes to show that everything created since the origin of the universe over thirteen billion years ago has involved just two fundamental physical processes that combine to form the core of all creative processes.

These two steps occur whenever even a single bit of new information is created and comes into the universe. A quantum process - the " collapse of a wave function. It happens when the probabilistic wave function that describes the possible outcomes of a measurement "collapses" and a particle of matter or energy is actually found somewhere.

A thermodynamic process - local reduction, but cosmic increase, in the entropy. The second law of thermodynamics requires that the overall cosmic entropy always increases. When new information is created locally in step 1, some energy with positive entropy greater than the negative entropy of the new information must be transferred away from the location of the new bits or they will be destroyed, if local thermodynamical equilibrium is restored.

This can only happen in a locality where flows of matter and energy with low entropy are passing through, keeping it far from equilibrium. This two-step core creative process underlies the formation of microscopic objects like atoms and molecules, as well as macroscopic objects like galaxies, stars, and planets.

Werner Heisenberg - Wikipedia

With the emergence of teleonomic purposive information in self-replicating systems, the same core process underlies all biological creation. But now some random changes in information structures are rejected by natural selection, while others reproduce successfully.

Finally, with the emergence of self-aware organisms and the creation of extra-biological information stored in the environment, the same information-generating core process underlies communication, consciousnessfree willand creativity. The two physical processes in the creative process, quantum physics and thermodynamics, are somewhat daunting subjects for philosophers, and even for many scientists.

Quantum Mechanics In classical mechanics, the material universe is thought to be made up of tiny particles whose motions are completely determined by forces that act between the particles, forces such as gravitation, electrical attractions and repulsions, etc.

An introduction to the life of werner heisenberg

The equations that describe those motions, Newton's laws of motion, were for many centuries thought to be perfect and sufficient to predict the future of any mechanical system.

They provided support for many philosophical ideas about determinism. In classical electrodynamics, electromagnetic radiation light, radio was known to have wave properties such as interference. When the crest of one wave meets the trough of another, the two waves cancel one another.

In quantum mechanics, radiation is found to have some particle-like behavior. Energy comes in discrete physically localized packages. Boltzmann had shown in the 's that the increase in entropy the second law could be explained if gases were made up of enormous numbers of particles.

Planck applied Boltzmann's statistics of many particles to radiation and derived the distribution of radiation at different frequencies or wavelengths just as James Clerk Maxwell and Boltzmann had derived the distribution of velocities or energies of the gas particles.

Quantum Physics came from Vedas: Schrödinger and Einstein read Veda's

Note the mathematical similarity of Planck's radiation distribution law photons and the Maxwell-Boltzmann velocity distribution molecules. Both curves have a power law increase on one side to a maximum and an exponential decrease on the other side of the maximum.

The molecular velocity curves cross one another because the total number of molecules is the same.hedonism. Belief that pleasure {Gk. ‘ηδονη [hêdonê]} is the highest or only source of intrinsic value.

Although commonly defended as a moral theory about the proper aim of human conduct, hedonism is usually grounded on the psychological claim that human beings simply do act in such ways as to maximize their own happiness.

Aristotle . Page 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 >. Show in alphabetical order. Swami Vivekananda () was the foremost disciple of.

Albert Einstein Old Grove Rd. Nassau Point Peconic, Long Island August 2nd F.D. Roosevelt President of the United States White House Washington, D.C. Sir: Some recent work by and L.

Szilard, which has been com- municated to me in manuscript, leads me to expect that the element uran- ium may be turned into a new and important source of energy in the im- mediate future.

Quantum mechanics (QM) is the part of physics that tells how the things that make up atoms work. QM also tells how electromagnetic waves (like light) is also called "quantum physics" or "quantum theory". QM is a mathematical framework (rules written in maths) for much of modern physics and ph-vs.comm mechanics helps make sense of the smallest things in nature like protons.

Werner Heisenberg: Werner Heisenberg, German physicist and philosopher who discovered () a way to formulate quantum mechanics in terms of matrices. For that discovery, he was awarded the Nobel Prize for Physics.

In he published his uncertainty principle, upon which he built his philosophy and for which he is best known. Life of Fred offers a Complete Math Education from addition through two years of calculus and beyond.

more mathematics than .

Werner Heisenberg Biography - life, family, children, young, son, information, born, time