A **cosmological decade** ( CÐ ) is a division of the lifetime of the cosmos. The divisions are logarithmic in size, on base 10. Each successive cosmological decade represents a ten-fold increase in the total age of the universe.^{[1]}

As expressed in log( Seconds per Ðecade )

When CÐ is measured in log( seconds/Ð ), *CÐ 1* begins at 10 seconds and lasts 90 seconds (until 100 seconds after Time Zero). *CÐ 100*, the 100th cosmological decade, lasts from 10^{100} to 10^{101} seconds after Time Zero. CÐ - is Time Zero.

The epoch *CÐ -43.2683* was 10^{(-43.2683)} seconds, which represents the Planck time since the big bang (Time Zero). There were an infinite number of cosmological decades between the Big Bang and the Planck epoch (or any other point in time). The current epoch, *CÐ 17.6355*, is 10^{(17.6355)} seconds, or 13.73(12) billion years, since the Big Bang. There have been 60.9 cosmological decades between the Planck epoch, CÐ -43.2683, and the current epoch, CÐ 17.6355.

As expressed in log( Years per Ðecade )

Fred Adams & Greg Laughlin, in *The Five Ages of the Universe*, first defined the cosmological decade as expressed in log years per decade. In this definition, in the 100th cosmological decade, lasts from 10^{100} years to 10^{101} years after Time Zero. To convert to this format, simply divide by seconds per year; or in logarithmic terms, subtract 7.4991116 from the values listed above. Thus when CÐ is expressed in log( years/Ð ), the Planck time could also be expressed as 10^{(-43.2683 - 7.4991116)} years = 10^{(-50.7674)} years.

In this definition, the current epoch is CÐ (17.6355 - 7.4991116), or CÐ 10.1364. As before, there have been 60.9 cosmological decades between the Planck epoch and the current epoch.

In their view, the history of the universe can be segmented into five Ages:

Age | Ðecades | Process |

Primordial | -50 to +5 | from the Planck time until universe becomes transparent to radiation |

Stelliferous | 6 to 14 | stars shine brightly (our current epoch is +10.1364) |

Degenerate | 15 to 37 | stars degenerate, get dimmer |

Black Hole | 38 to 99 | stars evaporate, galactic black holes evaporate |

Dark Era | 100 onward | lone protons and other particles get even farther and farther apart from each other |

**^**Adams, Fred; Greg Laughlin (2000).*The Five Ages of the Universe*. Free Press. ISBN 0-6848-6576-9.

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