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

### From inside the book

Results 1-3 of 73

Page 410

What has all this to do with «

space geometry changing with time . « Worldline » is the history of particle

position changing with time . What we have just said of the history of the particle ...

What has all this to do with «

**space**-**time**» ? «**Space**-**time**» is the history ofspace geometry changing with time . « Worldline » is the history of particle

position changing with time . What we have just said of the history of the particle ...

Page 427

This concept of what we may call a « many - fingered time » TOMOXAGA [ 131 ]

generalized in 1946 from the dynamics of n particles in flat

dynamics of the electromagnetic field in flat

to ...

This concept of what we may call a « many - fingered time » TOMOXAGA [ 131 ]

generalized in 1946 from the dynamics of n particles in flat

**space**-**time**to thedynamics of the electromagnetic field in flat

**space**-**time**. The field is conceivedto ...

Page 445

In reality there is no such thing as

and the words « before » and « after » are without application . These long -

known considerations are of importance only at the Planck scale of distances .

In reality there is no such thing as

**space**-**time**. « Time » itself loses its meaning ,and the words « before » and « after » are without application . These long -

known considerations are of importance only at the Planck scale of distances .

### What people are saying - Write a review

We haven't found any reviews in the usual places.

### Contents

Gradual infiltration of probabilitys laws into physical sciences | 1 |

Statistical fluctuations | 10 |

Introduction | 21 |

Copyright | |

24 other sections not shown

### Other editions - View all

### 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