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New dynamic system suggested for earth expansion

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Abstract

It is here suggested that there may have been much more radioactive materials in the deep interior of the earth than bitherto supposed. Trapped heat being generated in the interior would provide a mechanism for earth expansion. An assumption of heat generation in the deep interior of the earth of the order of 0,5 X 10-13 calories per second, per cubic centimeter, would provide sufficient thermal expansion to account for approximately 0.1 mm. change in the radius of the earth per year.
Authors:
Fitzpatrick, J [1] 
  1. Asuncion Nacional Univ. (Paraguay). Inst. de Ciencias
Publication Date:
Jan 01, 1972
Product Type:
Journal Article
Reference Number:
AIX-20-082085; EDB-89-171573
Resource Relation:
Journal Name: Revista de la Sociedad Cientifica del Paraguay; (Paraguay); Journal Volume: 13:1-2
Subject:
58 GEOSCIENCES; EARTH PLANET; THERMAL EXPANSION; GEOLOGIC HISTORY; GEOTHERMAL ENERGY; NATURAL RADIOACTIVITY; ENERGY; ENERGY SOURCES; EXPANSION; PLANETS; RADIOACTIVITY; RENEWABLE ENERGY SOURCES; 580200* - Geophysics- (-1989)
OSTI ID:
5476794
Country of Origin:
Paraguay
Language:
Spanish
Other Identifying Numbers:
Journal ID: CODEN: RSCPD
Submitting Site:
INIS
Size:
Pages: 1-6
Announcement Date:
May 01, 1972

Journal Article:

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Citation Formats

Fitzpatrick, J. New dynamic system suggested for earth expansion. Paraguay: N. p., 1972. Web.
Fitzpatrick, J. New dynamic system suggested for earth expansion. Paraguay.
Fitzpatrick, J. 1972. "New dynamic system suggested for earth expansion." Paraguay.
@misc{etde_5476794,
title = {New dynamic system suggested for earth expansion}
 author = {Fitzpatrick, J}
 abstractNote = {It is here suggested that there may have been much more radioactive materials in the deep interior of the earth than bitherto supposed. Trapped heat being generated in the interior would provide a mechanism for earth expansion. An assumption of heat generation in the deep interior of the earth of the order of 0,5 X 10-13 calories per second, per cubic centimeter, would provide sufficient thermal expansion to account for approximately 0.1 mm. change in the radius of the earth per year.}
 journal = []
 volume = {13:1-2}
 journal type = {AC}
 place = {Paraguay}
 year = {1972}
 month = {Jan}
 }