What Would 440 Before the Flood Date To? Carbon Wise? Or 600 Before the Flood?

What Would 220 Before the Flood Date To? Carbon Wise? · What Would 440 Before the Flood Date To? Carbon Wise? Or 600 Before the Flood?

0.5^(440/5730) = 0.9481657393132604

0.9481657393132604 * = decay
0.0518342606867396 = normal replacement

A) with 3.611 times as fast production, like on this view the half as long period after the Flood?
B) with same production as now?
C) with ten times slower production than now (as generally pre-Flood)?

3398 BC

x -> pmC

A) x * 0.9481657393132604 + 3.611 * 0.0518342606867396 = 0.016277
x * 0.9481657393132604 = 0.016277 - 3.611 * 0.0518342606867396
x = (0.016277 - 3.611 * 0.0518342606867396) / 0.9481657393132604
x = -0.180239 ... (minus value, impossible)

B) x * 0.9481657393132604 + 0.0518342606867396 = 0.016277
x * 0.9481657393132604 = 0.016277 - 0.0518342606867396
x = (0.016277 - 0.0518342606867396) / 0.9481657393132604
x = -0.0375 ... (minus value, impossible)

C) x * 0.9481657393132604 + 0.00518342606867396 = 0.016277
x * 0.9481657393132604 = 0.016277 - 0.00518342606867396
x = (0.016277 - 0.00518342606867396) / 0.9481657393132604
x = 0.0117

How about taking the final 440 years as rising twice as fast as the medium?

D) x = (0.016277 - 2 * 0.00518342606867396) / 0.9481657393132604
x = 0.006233

C) 5730 * log(0.0117) / log(0.5) + 3398 = 40 169 BC
D) 5730 * log(0.006233) / log(0.5) + 3398 = 45 375 BC

What about 600 Before the Flood, when Noah was born?

3557 BC

x -> pmC

0.5^(600/5730) = 0.9299905477435162

0.9299905477435162 * = decay
0.0700094522564838 = normal replacement

0.0700094522564838 / 5 = 0.01400189045129676
0.0700094522564838 / 10 = 0.00700094522564838

A) x * 0.9299905477435162 + 0.01400189045129676 = 0.016277
x * 0.9299905477435162 = 0.016277 - 0.01400189045129676
x = (0.016277 - 0.01400189045129676) / 0.9299905477435162
x = 0.002446379

B) x * 0.9299905477435162 + 0.00700094522564838 = 0.016277
x * 0.9299905477435162 = 0.016277 - 0.00700094522564838
x = (0.016277 - 0.00700094522564838) / 0.9299905477435162
x = 0.0099743538

A) 5730 * log(0.002446379) / log(0.5) + 3557 = 53 266 BC
B) 5730 * log(0.0099743538) / log(0.5) + 3557 = 41 648 BC

Three possible tables. Both are on average 1/5 of the normal replacement. The latter part is, but the former part is 1/10 normal replacement. Both are on average 1/10 normal replacement. Hmm ... may have to think the compromise through, tomorrow ...

3557 BC

0.245 pmC, 53 266 BC

3398 BC

0.623 pmC, 45 375 BC

3557 BC

0.997 pmC, 41 648 BC

3398 BC

0.623 pmC, 45 375 BC

3557 BC

0.997 pmC, 41 648 BC

3398 BC

1.17 pmC, 40 169 BC

.... Thinking — could this happen?*

I mean, if the pmC is 0.997 in 3557 BC, could it drop to 0.623 in 3398 BC? Not by decay. In 159 years, the decay is a multiplication by 0.98095. By carbon escaping from somthing which never had carbon 14? Perhaps. So, no, as that is not overlikely in the calm pre-Flood times, probably not. Actually the opposite combination would be more likely:

3557 BC

0.245 pmC, 53 266 BC

3398 BC

1.17 pmC, 40 169 BC

How fast would that have gone?

0.00245 * 0.98095 = 0.0024
0.0024 + 0.01905 = 0.02145 (2.145 pmC)

0.0024 + 0.01905/2 = 0.011925 (1.1925 pmC)

Less than half as fast as modern speed to reach 1.17 pmC. Now, that could happen.

Why am I just speculating, between incompatible scenarii? Because I have no anchor point prior to the Flood, that's why.

Hans Georg Lundahl
Paris
St. Cyril
18.III.2025

Hierosolymis sancti Cyrilli Episcopi, Confessoris et Ecclesiae Doctoris; qui, ab Arianis multas pro fidei causa perpessus injurias et ex Ecclesia sua saepe depulsus, tandem, sanctitatis gloria clarus, in pace quievit. Ipsius porro intemeratam fidem prima Constantinopolitana Synodus oecumenica, sancto Damaso Papae scribens, praeclaro testimonio commendavit.

* The middle one, obviously. The other two can.