THEME 1 : OVERVIEW

Quantum physical experimentation reveals that experimental outcome cannot be predicted with precision, but only with a certain degree of probability. The rules of HEISENBERG 1927 explain, that localization and speed of subatomic particles cannot be measured with precision at the same time. If localization is measured with precision, speed can only be predicted with probability and vice versa. Probability means that a certain degree of hazard is included in quantum physical experiments. Does this mean that subatomic particles are governed by hazards and that therefore the whole universe is based on hazards only ?

(A click on the author name on the pink left side leads to his own page)

11 international scientists from 7 countries

(recognizable by their indicated publications) have contradictory opinions, as listed below. Their contributions are accessible by clicking on their names on the pink left side. Other contributions are expected further on.
PUBLISHED STATEMENTS :
Author   
Discipline
Country
Opinion
1
 CHARPAK, G. et al.
Physics, CERN, Geneva
 SWITZERLAND
 yes
2
 OMNES, R
Theoretical Physics, Paris
 FRANCE
yes
3
 HEISENBERG, W
Physics, Leipzig,
 GERMANY
yes
4
 HAWKING,
Theoretical Physics, Cambridge 
 ENGLAND
yes
INVITED DISCUSSANTS :
5
 SCHUTTE, D
Theoretical Physics, Bonn
 GERMANY
no
6
 GUICHON, P
Theoretical Physics, Paris
 FRANCE
 no
7
 JANSEN, FK
Biology, Montpellier
 FRANCE
indeterminable
8
 KRÖGER, H
Theoretical Physics, Quebec
 CANADA
yes
9
 BRICMONT, J
Theoretical Physics, Louvain
 BELGIUM
no
10
 SCHULMAN, LS
Theoretical Physics, New York
 USA
no
11 BITBOL,M Philosophy, CREA, Paris FRANCE yes: for theories

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