## Proceedings of the International School of Physics "Enrico Fermi.", Volume 72N. Zanichelli, 1979 - Nuclear physics |

### From inside the book

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Page 138

As a matter of fact , we can « justify » deduction , only by

inductive procedure ! Again and again , we ... we will confine ourselves to the

question of how induction is actually

have a ...

As a matter of fact , we can « justify » deduction , only by

**applying**a sort ofinductive procedure ! Again and again , we ... we will confine ourselves to the

question of how induction is actually

**applied**in physics ( quid facti ? ) . Physicistshave a ...

Page 151

The prescription can possibly include also the specification of which operation

should be carried out at what time ( with respect to the initial time ) . When r is

later ...

The prescription can possibly include also the specification of which operation

should be carried out at what time ( with respect to the initial time ) . When r is

**applied**to o , it yields a result a ( o ) . What exactly is a « result » will be definedlater ...

Page 160

In general , there are no logical reasons to discard a situation of strong

selfreference , where u is

obviously measure itself . Later on we will discuss the well - known complications

that arise in ...

In general , there are no logical reasons to discard a situation of strong

selfreference , where u is

**applied**to A itself . For instance , a meter stick canobviously measure itself . Later on we will discuss the well - known complications

that arise in ...

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### Contents

Gradual infiltration of probabilitys laws into physical sciences | 1 |

Statistical fluctuations | 10 |

Introduction | 21 |

Copyright | |

24 other sections not shown

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### Common terms and phrases

according additive appear applied approach argument assume atoms Borel called classical closed complete concept consider constant corresponding countable course defined definition derived described determined dialog discussion distribution dynamics edited effect elementary elements energy equal equation equivalent example exists experiment expressed fact field final finite formal frequency function geometry give given Hence implies initial interpretation lattice limit logical mass material mathematical means measurement motion natural observable obtain operator particle particular Phys physical positive possible precision present principle probability problem proof propositions proved quantity quantum mechanics question reason refer relation relative represented requirement respect result rules satisfies sense sequence space space-time special relativity statistical structure theorem theory transformation turn unit Universe vector