Difference between revisions of "Supernova Observations Fit Einstein-deSitter Expansion in 4-sphere"
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| − | Recent observations on the redshift and magnitude of distant supernovae have raised fundamental questions of the cosmological structure and the development of space. Interpretation of the observations with the standard cosmology model suggests accelerating expansion of space which requires an assumption of unknown dark energy working against gravitation at cosmological distances. This paper presents an analysis which shows that the observed magnitude redshift relationship is in an excellent agreement with the prediction derived by assuming a zero energy balance of motion and gravitation in an expanding 4-sphere. Such an approach can be regarded as Einstein-deSitter expansion in the fourth dimension, suggesting a decelerating expansion velocity until zero in infinity. | + | Recent observations on the redshift and magnitude of distant supernovae have raised fundamental questions of the cosmological structure and the development of space. Interpretation of the observations with the standard cosmology model suggests accelerating expansion of space which requires an assumption of unknown dark energy working against gravitation at cosmological distances. This paper presents an analysis which shows that the observed magnitude redshift relationship is in an excellent agreement with the prediction derived by assuming a zero energy balance of motion and gravitation in an expanding 4-sphere. Such an approach can be regarded as Einstein-deSitter expansion in the fourth dimension, suggesting a decelerating expansion velocity until zero in infinity. |
| − | [[Category:Gravity]] | + | [[Category:Scientific Paper|supernova observations fit einstein-desitter expansion -sphere]] |
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| + | [[Category:Gravity|supernova observations fit einstein-desitter expansion -sphere]] | ||
Latest revision as of 19:57, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Supernova Observations Fit Einstein-deSitter Expansion in 4-sphere |
| Read in full | Link to paper |
| Author(s) | Tuomo Suntola, Bob Day |
| Keywords | large-scale structure of universe, galaxies, redshift, cosmology, observations |
| Published | 2004 |
| Journal | ArXiv |
| No. of pages | 10 |
Read the full paper here
Abstract
Recent observations on the redshift and magnitude of distant supernovae have raised fundamental questions of the cosmological structure and the development of space. Interpretation of the observations with the standard cosmology model suggests accelerating expansion of space which requires an assumption of unknown dark energy working against gravitation at cosmological distances. This paper presents an analysis which shows that the observed magnitude redshift relationship is in an excellent agreement with the prediction derived by assuming a zero energy balance of motion and gravitation in an expanding 4-sphere. Such an approach can be regarded as Einstein-deSitter expansion in the fourth dimension, suggesting a decelerating expansion velocity until zero in infinity.
