On artificial intelligence and genuine stupidity?

 Breaking ChatGPT: Its Inability to Find Patterns in Numerical Sequences

William A Dembski 

Here’s a sequence of numbers: 2,4,6,8,10,12,… What’s the next number in the sequence? Obviously 14. That one was simple. But what if we make finding the pattern more difficult? It turns out ChatGPT has serious difficulties with numerical patterns. The problem is not just that it can’t figure out the pattern. It makes up patterns that don’t exist. And then it acts as though it knows what’s going on when in fact it is clueless.

Pattern completion tasks like this have been part of aptitude testing for a long time. The NSA and CIA, for instance, have used them to help in hiring analysts. These tasks also epitomize a key obstacle facing artificial intelligence, which is its inability to model abductive inference, or what is also called inference to the best explanation (Erik Larson explains the failure of AGI, or artificial general intelligence, to model this form of inference in his 2021 Harvard University Press book, The Myth of Artificial Intelligence).

Effect to Cause

Inference to the best explanation is effect to cause reasoning. It looks at some effect to be explained and then tries to come up with an explanation. The problem is that the range of possible explanations is unlimited. Somehow humans are able to whittle down that range and engage in successful IBEs (inferences to the best explanation). Computers, however, have no facility in this regard, and LLMs (large language models) based on neural nets, such as ChatGPT, are a case in point. 

It’s one thing to make the theoretical case that these models cannot adequately perform inferences to the best explanation. It’s another to provide concrete examples of this failure. I’m going to do that now. Below are four queries by me to ChatGPT4 for figuring out the underlying pattern of a numerical sequence and then producing additional numbers in the sequence. Producing such additional numbers is straightforward once one sees the pattern.

The breakdown in each of these cases startling. Indeed, the incomprehension is face-palm level. I’ll insert some commentary in [square brackets]. Everything else is from four recent exchanges with ChatGPT4. I made the sequences reasonably difficult. It would be one thing if ChatGPT4 had simply said that it didn’t see the pattern, confessing ignorance. But in each case it pretended to understand the pattern. And in each case it claimed to produce the correct continuation to the pattern — and failed!

For the first of these, I’ll provide the continuation and an explanation of the pattern. For the other three, I’ll simply provide the continuation of the pattern, leaving it as a puzzle to readers to figure out the underlying pattern. Note that unlike the example with which I started this article, I don’t include any breaks (e.g., commas or spaces) between the numbers. 

Numerical Pattern #1: Primes Plus Fibonaccis

My Query:

What is the pattern in the following numbers and what are the next two digits: 3471016213040

ChatGTP’s Response:

This sequence appears to follow a pattern based on the positional value of digits (zero-based) in the decimal representation of pi (π).

π to several decimal places is: 3.14159265358979323846…

The sequence appears to take each digit’s value from pi’s decimal representation as an index, starting from zero:

The 0th digit of pi is 3.

The 1st digit of pi is 1.

The 4th digit of pi is 1.

The 1st digit of pi is 1.

The 5th digit of pi is 9.

The 9th digit of pi is 2.

The 2nd digit of pi is 4.

The 6th digit of pi is 5.

The 5th digit of pi is 9.

The 3rd digit of pi is 1.

The 8th digit of pi is 6.

The 9th digit of pi is 2.

The 7th digit of pi is 9.

So, the sequence corresponds to the decimal representation of pi, where each digit in the sequence represents the index in the decimal representation of pi.

To find the next two digits, we follow the pattern:

The 9th digit of pi is 2.

The 2nd digit of pi is 4.

So, the next two digits in the sequence should be 24. Thus, the extended sequence would be: 347101621304024.

[Me again: This is word salad. ChatGPT seems to find some similarity between the sequence I put forward and the number pi. But that similarity is entirely imaginary. In fact, this number is formed by taking the prime numbers 2, 3, 5, 7, 11, 13, 17, 19, etc. and adding them, number by number to the Fibonacci numbers 1, 1, 2, 3, 5, 8, 13, 21, etc. That method yields 3, 4, 7, 10, 16, 21, 30, 40, which when commas and spaces are removed is just the number I posed in my query to ChatGPT, namely, 3471016213040. The next prime number after 19 is 23, and the next Fibonacci number after 21 is 34, the sum of which is 57. That is the number that ChatGPT should have put down. Instead it put down 24 — not even close. And its explanation was nonsense, betraying complete incomprehension.]

Numerical Pattern #2

My Query:

What is the pattern of the following sequence of numbers (in particular, how would it be continued): 111121112211312211331122211

ChatGTP’s Response:

This sequence appears to be a variant of the “Look-and-Say” sequence. In this sequence, each term describes the previous term. However, in the typical Look-and-Say sequence, each term is made up of two-digit numbers where the first digit is the count and the second digit is what is being counted.

In this variant, the sequence seems to use one-digit counts and what’s being counted.

Here is how the sequence seems to work:

111: Describes one ‘1’ => ’11’

121: Describes one ‘1’, one ‘2’ => ‘1121’

1121: Describes two ‘1’, one ‘2’ => ‘211221’

211221: Describes one ‘1’, one ‘2’, two ‘1’ => ‘121221’

121221: Describes one ‘1’, one ‘2’, two ‘2’, one ‘1’ => ‘11122121’

11122121: Describes three ‘1’, two ‘2’, one ‘1’ => ‘31221131’

31221131: Describes one ‘1’, one ‘3’, two ‘2’, two ‘1’ => ‘11312221’

So, the next term in the sequence after 111121112211312211331122211 should be: 3113112211322112211213322111.

[Me again: In this case ChatGPT got it right that this was a variant of the look-and-say sequence, but it was spinning its wheels when trying to figure out how exactly it was a variant. I leave it as an exercise to the reader to figure out the precise pattern here. The next numbers, which ChatGPT should have put down if it knew what it was doing, would be 13213221. It got that completely wrong.]

Numerical Pattern #3

My Query:

What is the pattern in the following sequence of digits and what six numbers come next: 271828394274528731641187875644998090

ChatGPT’s Response:

This sequence appears to represent the first few digits of the decimal expansion of e (Euler’s number) in groups of two, with each group shifted one digit to the right from the previous group.

Here’s the first part of e to 50 decimal places:

2.71828182845904523536028747135266249775724709369995957…

When we group them in twos and align them with your sequence:

27, 18, 28, 18, 28, 45, 90, 45, 23, 53, 60, 28, 74, 71, 35, 26, 62, 49, 77, 57, 24, 70, 93, 69, 99, 59, 57…

We can see that your sequence lines up with these groups, but each group starts one digit later than the previous group.

So, the next six numbers, each taken from the next digit of e and the one after it, would be:

49, starting from the 49th digit of e.

57, starting from the 50th digit of e.

24, starting from the 51st digit of e.

70, starting from the 52nd digit of e.

93, starting from the 53rd digit of e.

69, starting from the 54th digit of e.

So, the sequence extended by the next six numbers would be:

271828394274528731641187875644998090495724709369.

[Me again: ChatGPT’s explanation is mystifying. I did indeed take the first six digits of Euler’s e to start off this sequence, but I did so in part to misdirect ChatGPT, because it seems to pay attention to the opening of a numerical sequence and then make more of that opening than it deserves. After those first six digits of e, the digits that appear after it bear no resemblance to e. ChatGPT is claiming that the continuation of that sequence is 495724709369. In fact, the continuation is 122557.

Numerical Pattern #4

My Query:

What is the pattern in the following numbers and what five digits are next: 314152718262820442642464088428

ChatGPT Response:

The sequence seems to be an alternation between digits of pi and squares of natural numbers.

Here’s how it works:

The digits of pi are: 3, 1, 4, 1, 5, 9, 2, 6, 5, 3, 5, 8, 9, 7, 9,…

The squares of natural numbers are: 1, 4, 9, 16, 25, 36, 49, 64, 81, 100,…

When interwoven, you get: 3 (from pi), 1 (1^2), 4 (from pi), 1 (2^2), 5 (from pi), 9 (3^2), 2 (from pi), 6 (4^2), 5 (from pi), 3 (5^2), 5 (from pi), 8 (6^2), 9 (from pi), 7 (7^2), 9 (from pi), 4 (8^2), 2 (from pi), 6 (9^2), 4 (from pi), 4 (10^2), 6 (from pi), 4 (11^2), 0 (from pi), 8 (12^2), 8 (from pi), 4 (13^2), 2 (from pi), 8 (14^2).

Following this pattern, the next five digits would be from the next digit of pi (8) and the square of the next natural number (15^2 = 225). So the next five digits should be “8225”.

[Me again: This explanation is nonsensical, like the others. Yes, I start with the first five digits of pi and then the first five of Euler’s e. But after that, I’m not trying to evaluate or approximate these numbers. Note that ChatGPT lists the next five digits to continue the pattern as 8225. There are only four digits here. It is, as Wolfgang Pauli used to say, not even wrong. The next five digits should be 48280.]

Conclusion

Finding patterns in numerical sequences seems, on the basis of these four tests, to be a systemic problem and breakdown for ChatGPT. It appears to be emblematic of a more general problem of its being unable to carry out abductive inferences, or what are also known as inferences to the best explanation. The numerical patterns that I considered were not particularly obvious. I plan to do some further tests to see how simple the patterns can be made but where ChatGPT will still fail to uncover them.

ChatGPT’s failure with inference to the best explanation is a gaping hole in its ability to achieve genuine language comprehension. Add to this it’s failure at self-transcendence (as shown by its inability to extract itself from self-referential linguistic situations — see here and also the same problem for Google Bard), and we have good reason to doubt the linguistic comprehension of these systems in general. We should therefore distrust these systems for any serious inquiry or decision.

The scriptures' antitrinitarian bias is unrelenting.

 Hebrews ch.1:1-3KJV"(Grk. Ho Theos)God, who at sundry times and in divers manners spake in time past unto the fathers by the prophets,

2 Hath in these last days spoken unto us by his Son, whom he hath appointed heir of all things, by whom also he made the worlds;

3 Who being the brightness of his glory, and the express image( Grk. kharakter)of his person(hypostasis)...." 

The Father is here identified as ho theos THE God of the O T patriarchs and prophets according to trinitarians the Father is not a God and thus cannot be the God of anyone certainly not the God of the ancient patriarchs the God of the Bible. Jesus is said to be the Kharakter of JEHOVAH'S hypostasis rendered variously nature,substance,person here is part of thayers commentary:

that which has foundation, is firm; hence,

a. that which has actual existence; a substance, real being: 

Thus the verse.3 is rendered in part this way in the NIV:"3The Son is the radiance of God’s glory and the exact representation of his being..." 

Thus the Father being the God is a God in his own right which is a real problem for the creeds which in an effort to retain an appearance of monotheism insists that none of the constituents of the trinity is a God(though being fully God) in his own right. And also a being which in trinitarian theology ought only to be true of the entire trinity itself/himself? The son is spoken of as being the Kharakter of the God's(i.e the Father's) being. Here is thayers commentary in part:

the mark (figure or letters) stamped upon that instrument or wrought out on it; hence, universally, "a mark or figure burned in (Leviticus 13:28) or stamped on, an impression; the exact expression (the image) of any person or thing, marked likeness, precise reproduction in every respect" (cf. facsimile):

Obviously the imprint is not of the same substance/nature as the seal with which it is made. The impress is an artifact of the seal not the other way around thus we find not the slightest hint of this equality between Jesus and his God suggested by Trinitarians but rather the reverse clear indications of JEHOVAH'S transcendent supremacy.

The supremacy of the Father permeates the scriptures II

 John ch.8:54NIV"If I glorify myself ,my glory means nothing. My Father,is the ONE who glorifies me." 

Once more Jesus identifies his Father as the one God of Israel. For Jesus and his fellow Jews the Father and the God were identical,the father was not a member of a collective deity. And can we even conceive of the Father claiming that if he glorified himself his glory would be nothing.(btw why is the Holy Spirit not glorifying him)

John ch.14:6NIV"I am the way the truth and the life. No one comes to the Father except through me." 

Here again we see that the Father and the God are the same person. Unless we wish to claim that Jesus is merely mediator between man and a subsisting member of the God. Also if all members of this Godhead are truly co-equal why is it that only the Father requires a mediator and the Son and the spirit don't. 

John ch.14:28"You heard me say,"I am going away and am coming back to you." If you loved me, you would be glad that I am going to the Father,for the Father (the God) is greater than I" 

The Son's plain declaration that the person identified as the Father is greater than the person identified as the Son really ought to be the end of the matter,unfortunately we have had to witness the most cringe inducing mental gymnastics in connection with this text. 

Hebrews ch.6:13NIV"When (the)God made his (third person singular)promise to Abraham since there was no one greater for him to swear by.." 

JEHOVAH is immutable, so the apostle's declaration holds true at all times and in all places. 

John ch.6:57NIV"Just as (in the same manner that) the living Father sent me and I live because of the Father (or the Father caused me to live),so (or in like manner) the one who feeds on me will live because of me." 

If someone else caused one to live then one is most certainly not the one God of scripture. And the comparison with the way Christ will resurrect faithful followers should be a safeguard against attempts to needlessly mystify the verse. But who caused the Son to live The Father (i.e the God).

Luke ch.18:19NIV""why do you call me good" Jesus answered" no one is good_except (the)God alone."" 

Here is another verse that really ought to be as plain as day as to its meaning ,but regarding which Christendom's theologians have elected for the most appalling mental contortions rather than the plain reading of the text. The Father is good in a way that distinguishes him from even the very best of his Sons. And this distinction is a transcendent one.

The kingdom of which God?

 New Chinese Catholic leaders say they'll follow Communist Party principles 

BEIJING (CNS) -- Two state-sponsored church bodies in China have elected new leaders, who promised to invigorate the Catholic faithful pastorally in line with the socialist principles of the Chinese Communist Party.

The three-day 10th National Congress of Catholicism in China ended in Wuhan, the capital of Hebei province in central China, Aug. 20. The national conference is held every five years, and senior Communist Party officials also attended the gathering and delivered speeches, reported ucanews.com.

The delegates unanimously accepted the work report of the Ninth Standing Committee on church efforts and activities in the promotion of patriotism, socialism, and sinicization in the Catholic Church as outlined by President Xi Jinping. 

Sinicization is a political ideology that aims to impose strict rules on societies and institutions based on the core values of socialism, autonomy, and supporting the leadership of the Chinese Communist Party, reported ucanews.com.

More than 300 Catholic bishops, clergy, and religious from across China elected new leaders of the Chinese Catholic Patriotic Association and the Bishops' Conference of the Catholic Church in China, said a report on the bishops' website.

Archbishop Joseph Li Shan of Beijing was elected chairman of the patriotic association, and Bishop Joseph Shen Bin of Haimen was elected chairman of the government-approved bishops' conference. 

The new leaders issued a statement to commit themselves to engaging priests, religious, and laypeople across the country for pastoral evangelization and further promotion of sinicization for "truth, pragmatism and inspiration" to move ahead toward a "bright future."

The new leaders' statement also highlighted the need for the Catholic Church to implement the spirit of the National Conference on Religious Affairs held last December and fulfill the requirement of the Communist Party's Central Committee for the Catholic Church in China. During that conference Dec. 3-4, Xi stressed the strict implementation of Marxist policies, increased online surveillance and tightening control of religion to ensure national security.

The bishops said it was "necessary to unite and lead the priests, elders and faithful to follow Xi Jinping's thought on socialism with Chinese characteristics for a 'new era'; continue to hold high patriotism and love for religion; (and) adhere to the principles of independent and self-run churches," the bishops' statement said.

The church leaders said they find it is important to adhere to the direction of sinicization of Catholicism in China to "vigorously strengthen the building of patriotic forces" to realize "the dream of the great rejuvenation of the Chinese nation."

Following the communist takeover in 1949, China severed diplomatic ties with the Vatican.

The communist government formed the Catholic Patriotic Association in 1957 to assert control over the Catholic Church. It initially did not accept papal authority over the Chinese Catholic Church.

For years, the appointment of bishops remained a bone of contention between the Chinese government and the Vatican, with Beijing appointing and consecrating bishops without a Vatican mandate. Although it has ordained many bishops "elected" without papal approval, the Chinese church has kept alive the line of apostolic succession by having validly ordained bishops serve as consecrators.

China has about 12 million Catholics split between those who leaders have joined the patriotic association and those who refuse, say independent researchers. 

In 2018, the Vatican signed a provisional agreement with China for two years over the appointment of bishops; the agreement was renewed for another two years in 2020. The provisions of the agreement have not been made public.

The Vatican reportedly seeks to unite Catholics with the deal, which gives the Vatican a say to accept or veto bishops selected by Beijing.

Time to pick a side Trinitarian/Modalist

 Malachi ch.3:6ESV"“For I the LORD do not change; therefore you, O children of Jacob, are not consumed. "

So which is it ? Is it that JEHOVAH is subject to no change or is he capable of infinite change, which is the only way that he could become a mortal creature.

Romans ch.1:25ESV"because they exchanged the truth about God for a lie and worshiped and served the creature rather than the Creator, who is blessed forever! Amen."

So which is it are the categories of Creator and creature mutually exclusive or not?

Dave Farina: team atheism's LVP VII

 Exposing Professor Dave’s Playground Tactics and Citation Bluffing Blitz

Casey Luskin 

In a series here I have been offering a post-mortem on the recent origin-of-life Debate between Rice University chemistry professor James Tour and YouTube science educator “Professor” Dave Farina. The point of this series is that you don’t have to be a science expert to understand who won the debate. I’m presenting three observations which are strong indicators about who won the debate:

Tour focused on science, Farina focused on character assassination.

Tour posed reasonable scientific challenges which Farina refused to answer.

Farina relied heavily upon playground tactics, appeals to authority, and citation bluffing.

In previous posts I discussed the First and Second elements, and here I’ll address the third:

Blinding Us with Science?

I don’t want this series to sound like Dave Farina did not discuss science. Interspersed in his flow of personal attacks and mockery of James Tour, some science came out. For the Q&A Farina had clearly prepared a list of peer-reviewed scientific papers written by leading origin-of-life researchers that he planned to cite because he believed they answered Tour’s requests for how various chemicals could form under prebiotic conditions. That’s fine. Good for Farina — this was a step in the right direction.

It was here that Farina used a blitz approach, throwing citation after citation at Tour rather than giving a detailed description of the science. Tour would respond to some if not many of the papers but there was simply not enough time to do so for all of them. 

But in a great many cases, Tour had ready answers for why those papers either did not produce what Farina claimed or did not actually model realistic prebiotic conditions. It was here that it became clear that Farina was frequently out of arguments so he would resort to unpersuasive theatrics. 

Sometimes Farina would try to pre-emptively prevent Tour from challenging the paper he’d just cited by saying things like “So do you call this guy a fraud?” or “Are you calling the author a liar?” Farina began to sound like a broken record, saying this over and over. It was clear he had nothing better than to tacitly threaten Tour’s integrity if he dared to challenge Farina’s scientific authority of the moment (that is, the claims Farina was making about the authority). 

Farina’s repeated framing was that if Tour criticized the paper then Tour must be calling the scientists a total “fraud” or “liars,” and he would not let Tour disagree or challenge him on this. When Tour gave details Farina would mock him. If you disagreed with Farina’s authority then you were immediately deemed a crank and intellectually deficient. 

Other times, Farina would resort to ridiculing Tour with sarcasm, and would even frequently stoop to repeating Tour’s words back at him with a mocking tone — a playground tactic one might expect from a person trying to divert attention from the fact that they have no answer to the question. Similarly, whenever Tour would cite numerical statistics that challenged the origin of life, Farina would mockingly mutter things like “There you go with big numbers again,” sneering at Tour for simply making a substantive argument. These antics may please the peanut gallery but they don’t inspire confidence in Farina’s science.  

The rapid-fire citation approach also raised questions about whether his papers actually backed up his claims. In fact, a little investigation after the debate showed that at least some of Farina’s papers were what we call “citation bluffs.” 

Farina’s Citation Bluffs on RNA Replication

To give one important example, Farina cited a 2009 paper co-written by origin-of-life giant Gerald Joyce published in Science to claim they had produced a “fully replicating” RNA (Farina’s words) – a key step in the origin of life. This is not the first time we’ve encountered this paper — it has been answered by both Stephen Meyer and Brian Miller. A couple years ago Miller gave it an astute dissection in response to another interlocutor who cited it as a refutation of Meyer. Here’s’ what Dr. Miller wrote: 

So what about Joyce’s experiments? Did they show that RNA molecules can self-replicate more than 10 percent of themselves under plausible prebiotic conditions and without intelligent intervention — the specific claim that Meyer disputes. 

No, they did not. Instead, here’s what Joyce and Robertson, and earlier Joyce and Lincoln, actually did.

In these experiments, Gerald Joyce and his colleagues demonstrated that a specifically designed RNA enzyme (or “ribozyme”) that they designated as E could link together two partial strands or halves of another RNA molecule (which they called the RNA substrates A’ and B’). The resulting new RNA enzyme (designated E’) could then join together two parts of the original ribozyme (RNA substrates A and B). The longer strands fused together by this process (that is, ribozymes E and E’) could then repeatedly fuse together the two halves of the opposite ribozyme if (1) a continuous supply of the two halves (either A’ and B’ or A and B) were provided in ample amounts to the experiment and if (2) critical protein enzymes were also introduced into the experiment at specific times. 

Here is a figure that depicts the entire process. … [T]he researchers themselves, give the impression that these experiments produced a self-replicating system that simulates “self-sustaining Darwinian evolution,” they in fact did no such thing. Nor did they produce an RNA molecule that could copy more than 10 percent of itself or, still less, one that could reproduce itself with “100% effectiveness” and do so under plausible prebiotic conditions.

                         Ligation, not Polymerization or Replication 

In the first place, Joyce and colleagues did not produce a genuinely self-replicating molecule. As envisioned by RNA World proponents, the emergence of a self-replicating RNA molecule is the crucial step in the emergence of the first life on earth since only after the emergence of such a self-replicating molecule would something like natural selection and random mutation begin to occur. 

Moreover, in the RNA world scenario a self-replicating RNA molecule would emerge only after (1) the chemical subunits of RNA formed on the early earth and then (2) those subunits linked together in specific ways to form an RNA molecule capable of producing copies (and near copies) of itself. RNA world researchers envision such self-replication occurring as the result of a ribozyme (specifically an RNA replicase) using a complementary copy of itself as a template to produce another copy of the original strand from free-floating RNA subunits (in particular, activated RNA nucleotides). 

Nevertheless, as Meyer has repeatedly noted, the molecules in Joyce’s experiment do not demonstrate the capability for such template-directed self-replication — a capability that RNA world advocates envision as crucial to the process of life originating from RNA molecules. Such self-replication necessarily requires the ribozyme to function as a polymerase — in other words, the ribozymes need to have the ability to link many nucleotide bases together to form long RNA chains. The ribozymes in the Joyce experiments do not perform this action. Instead, they catalyze (ligate) a single linkage between two ends of two pre-made, pre-sequenced halves or sections of RNA — sections that, once linked, will become a separate RNA chain that folds into a ribozyme. Thus, the RNA enzymes in Joyce’s experiments function as simple ligases rather than polymerases or replicases. 

                                    Meyer had already critiqued these experiments showing that they lacked this capability and did so again in Return of the God Hypothesis. As he stated (on p. 309): 

“The ‘self-replicating’ RNA molecules in this experiment did not copy a template of genetic information from free-standing nucleotides as protein machines (called polymerases) do in actual cells. Instead, in the experiment, a presynthesized specifically sequenced RNA molecule merely catalyzed a single chemical bond, fusing together two other presynthesized partial RNA chains. Their version of ‘self-replication,’ therefore, amounted to nothing more than joining two sequence-specific premade halves together.“

This limitation underscores why Meyer has correctly emphasized that simulations of RNA self-replication have failed to produce molecules capable of producing more than 10 percent of themselves. In Joyce’s experiments the single linkages performed by his RNA ligases provide far less than 10 percent of the total number of linkages in the resulting RNA strands (each of which include more than 60 such linkages between nucleotide bases). Indeed, Joyce himself has acknowledged that his experiment merely demonstrates the capacity of RNA molecules to perform ligation not polymerization and, thus, not genuine self-replication. As he noted, his use of “a directed evolution strategy required selecting for the ability to catalyze a simple ligation reaction, rather than replication itself.” 

Thus, the paper that Farina cites as producing a “fully replicating” RNA shows no such thing: it shows that an RNA enzyme can ligate (i.e., join) two pre-existing RNA strands — but only if those RNA strands are continuously supplied in great abundance. There is no polymerization of new RNA molecules going on here; as Miller puts it there is no ability “to link many nucleotide bases together to form long RNA chains.” Miller thus notes that in a later paper commenting on these very experiments, Joyce admits this is “a directed evolution strategy required selecting for the ability to catalyze a simple ligation reaction, rather than replication itself.” This very different from the “fully replicating” result claimed by Farina. 

We actually tackled this paper in a Long Story Short: Origin of Life video on replication which provided a nice discussion of what’s really going on with this paper. See the video here for details:

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Far from Explaining Replication

Biomedical engineer Robert Stadler, who helped create that Long Story Short video, further discussed this paper and the Long Story Short video’s critique on a recent episode of ID the Future, where he and Eric Anderson explained how far away this paper is from explaining the origin of replication. Their transcript is helpful to understand what’s going on:

Stadler: The analogy there is if you had a car that you cut in half, and then you had another car come along and it pushed the two halves together so that they joined and formed a functioning car. And then you claimed that you had created the world’s first self-replicating car. That’s basically what that paper is doing because it’s a ribozyme RNA, a strand of RNA, that’s able to create a single functional bond between two halves of itself to bring those together to create a full version of itself and they claimed that was self-replicating.

Anderson: Yeah I loved that example from the video because it’s really helpful for us. … They had this RNA which is able to catalyze a reaction and then they split it at the point where those particular nucleotides join. And so then you go out and buy—I mean literally buy from the polymer store — the two strands. And then you have the one that ligases or puts together those two nucleotides and then boom you get a second one and you claim that’s replication….

Stadler: A really important limitation too is that in that experiment there’s nothing hereditary being passed along, meaning that the molecule that’s doing the bonding, the ribosome, is not passing its information along to the combination of those two parts. All it’s doing is it’s bonding them together and then they go off and do their thing.

Anderson: Right. And then that reaction is just going to continue in that test tube until it runs out of reagents and then it’s done.

Stadler: Exactly. 

But There’s More

How did Joyce get this continuous supply of the needed RNA strands that were being joined together? It was through modern biochemistry and intelligent design — not a simulation of unguided prebiotic conditions. Miller continues:

So, in light of all this, how did Joyce and his colleagues produce many complete copies of their original ribozymes E and E’? It turns out the production of the copies of the RNA enzymes in their experiment depends — not on the ability of the RNA molecules to copy themselves — but instead on complex protein enzymes derived from living cells. Specifically, to make more copies of the RNA enzymes Joyce and colleagues employed the reverse transcription polymerase chain reaction (RT-PCR) procedure that requires using two complex protein enzymes — a reverse transcriptase and a DNA polymerase — as well as other molecular tools such as primers. Indeed, in order to make more copies of the most efficient ribozymes (rather than making complementary RNA strands with the opposite bases at each site) this procedure requires turning RNA into DNA and then reconstituting RNA from DNA. But that procedure necessarily employs an RNA reverse transcriptase, as mentioned, and an RNA polymerase — both of which are derived from living bacteria. As Meyer has told me, “Joyce and his team did not produce a self-replicating RNA molecule. Instead, they intelligently designed a system of protein-enzyme mediated replication.” Since these proteins had to be extracted from already living cells, Meyer also commented that “these experiments lead to the paradoxical conclusion that simulating a crucial step toward the origin of the first life from non-living RNA molecules requires the use of protein enzymes derived from already living cells.” Investigator Intervention

There is another reason that these experiments do not demonstrate the capacity of the RNA molecules in the experiment to self-organize or self-replicate. Every crucial step depended upon external guidance — often in the form of inputs of functional sequence-specific information — from highly intelligent chemists, in particular, Gerald Joyce and his colleagues.

Consider first that Joyce intelligently designed the larger ribozymes designated E and E’ that could link each other’s halves together. To build a precursor ribozyme in an original 2001 experiment, Joyce started with a random crop of 100 trillion RNA molecules with many different nucleotide base sequences. He then repeatedly applied chemical screens to select out those few RNAs that could perform ligation and performed it best (Rogers and Joyce 2001). 

Next, he selectively altered the base sequences in particular regions of these RNAs to enhance their ability to link together the halves of a duplicate strand. For example, he wanted the ribozymes to be able to bind strongly enough to the complementary base pairs on the substrate molecules (i.e., A and B) and yet not to bind so strongly as to prevent the larger ribozyme from breaking away once the two RNAs halves had linked together. Thus, Joyce not only used his intelligence to select molecules that could perform the function that he wanted from a random crop, he also optimized the function of these ribozymes through modifying carefully chosen regions (Paul and Joyce 2002). Joyce then altered the original RNA enzyme (which he called T) in order produce two new ribozymes (which he called E and E’) that would have the ability to link the two halves of each of these new enzymes together — where E would link together A’ and B’ to form E’, and E’ would link together A and B to form E. By his own admission, he used what he characterized as a “rational design” approach to create this mutually interdependent, cross-catalyzing system. He specifically arranged the RNA base sequences in the “paired regions” of the two enzymes so that they would bind by complementary base pairing to the substrates. In addition, the regions near the ends of the break between the two halves of E and E’ had to be engineered to ensure that a ribozyme-mediated linkage could occur (Lincoln and Joyce 2009). 

All this implies that Joyce necessarily had to design the pre-made, sequence-specific halves (i.e., both A and B and A’ and B’) that his ribozymes would join together. Indeed, the break point between the two halves needed to be at just the right location in order to ensure that ligation would occur. As mentioned, the arrangement of the nucleotide bases on the pre-made halves needed to be precise so that they would bind to their opposite base on the ribozyme by complementary base pairing. Meeting these specifications required Joyce’s repeated, active, and intelligent intervention in his experiment. Once Joyce had designed this cross-catalyzing system, he used “directed evolution” in an attempt to improve the efficiency of the ligase ribozymes. His team started by altering specific positions in the original ribozymes to generate numerous variants of E and E’ in the 2009 study and to generate numerous variants of E in the 2014 version of the experiment. They then isolated the variants that demonstrated the most efficient substrate-joining (ligase) function and differentially reproduced those. The 2014 study also tested for the variants’ ability to link their own half-strands together as well as the half strands of the opposite ribozyme. 

Clearly, this process also required extensive investigator guidance and intelligent design. For example, Joyce and his colleagues employed advanced laboratory techniques to generate trillions of variants of the original enzyme(s) and trillions of copies of the substrates. They then executed equally advanced procedures such as “selecting the reacted, biotinylated products by capturing them on a streptavidin-agarose resin” to tag and capture the variants that most efficiently joined substrates (Robertson and Joyce 2014). One cannot overstate the implausibility of comparable processes occurring outside of an advanced laboratory setting staffed with highly trained and intelligent technicians, let alone on the pre-biotic earth, presumably devoid of any source of intelligent guidance (here, here).

Indeed, as Meyer argued in Return of the God Hypothesis (p. 310), 

“…whenever chemists set up or interfere in a reaction sequence — or whenever they otherwise apply constraints to a chemical system — to ensure one outcome and preclude others, they effectively input information into that system. In so doing, they inadvertently simulate, if anything, the need for intelligent design to generate biologically relevant chemistry and information.”

Moreover, Meyer specifically applied this critique to Gerald Joyce’s ribozyme engineering experiments in his discussion of them in in RGH (p. 309). As he notes:

“Lincoln and Joyce themselves intelligently arranged the base sequences in these RNA chains. They generated the sequence-specific functional information that made even this limited form of replication possible. Thus, the experiment not only demonstrated that even a limited capacity for RNA self-replication depends upon information-rich RNA molecules; it also lent additional support to the hypothesis that intelligent design is the only known means by which functional information arises.”

This is just one important example of a paper that Farina touted that did not show what he claimed. The paper does not show a “fully replicating” RNA system, and what was done did not occur under prebiotic conditions.

Farina’s Citation Bluffs on Prebiotically Produced “Functional RNAs”

As another example, Farina and Tour sparred over Farina’s citation of a 2013 paper by Engelhart, Powner, and Szostak in Nature Chemistry titled “Functional RNAs exhibit tolerance for non-heritable 2′-5′ versus 3′-5′ backbone heterogeneity.” In normal biology, RNAs only use bonds between 3′ and 5′ carbons between successive nucleotides along their backbones, and 2’-5’ bonds between successive nucleotides make RNAs unusable. Some experiments evidently have shown that nucleotides can link up when templated using montmorillonite clay, but the bonds are a mix of normal 3’-5’ bonds and the unwanted 2’-5’ bonds. Farina repeatedly cited language from this this paper claiming that it shows that even RNAs with 2’-5’ bonds can be “functional” — i.e., ribozymes. Tour replied that it all depends on what you mean by “functional” and that they weren’t really useful, particularly because the RNAs end up branching into non-linear structures that don’t function at all like ribozymes or modern RNAs, which are linear and orderly. 

Our “Long Story Short: Origin of Life — Replication” video addressed this paper head-on, using the image below to show why these kinds of RNAs don’t look or work anything like functional biological RNAs: 

The Long Story Short video provides a note explaining how poorly these ribozymes worked and that the more 2’-5’ bonds that were present, the more its efficiency dropped:

Engelhart, Powner, and Szostak took a relatively simple ribozyme that could break bonds. The correct linkage (3’-5’) made a ribozyme that could break 80% of bonds in 48 hrs (Figure 3b). Then they tried a ribosome with 10% of the wrong linkage (2’-5’). That one could break 60% of bonds in 48 hours. With 25% of the wrong linkages, it broke about 25% of the bonds in 48 hours. With 50% of the wrong linkages, it broke only a few % of the bonds in 48 hours. 

Engelhart, Powner, and Szostak, the authors of the paper, are excited that they got any functionality whatsoever — but it’s clear that they were not working on a type of ribozyme that could do very much at a very rapid rate. It all comes down to how you define “functional” RNA: If the function is quite simple (i.e., nonspecific), having some inappropriate 2’-5’ linkages will be tolerated. But if the function is more specific, a bad bond could seriously interfere with the function. Could Farina’s purported (but not actual) “fully replicating” RNAs tolerate 2’-5’ linkages? It seems doubtful. One of those doubters might be Steve Benner, an authority that both Tour and Farina cited during their debate. Citing Engelhart et al. (2013), Benner wrote earlier this year:

[D]etailed analysis of the RNA formed on impact basaltic glass shows that it contains a mixture of 2’,5- and 3’,5’-links. The seriousness of this problem is still not clear. Some think that this mixture of linkages can be cured. Others not.

STEVE BENNER, “RETHINKING NUCLEIC ACIDS FROM THEIR ORIGINS TO THEIR APPLICATIONS,” PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY B, 378: 20220027 (2023).

It seems that not everyone believes that functional 2’-5’ ribozymes have been created after all. 

Closing Thoughts

It’s true that sometimes it can be hard to tell that serious problems remain unsolved until you drill down into the scientific details. But the rapid-fire rate and detail-poor style with which Farina was throwing papers at Tour gives you a clue that something was up. Farina further tried to impose a framing upon Tour that would not even let him challenge the paper without supposedly calling the authors a “fraud,” etc. He used playground tactics and mockery — making fun of Tour’s words without even trying to answer what he was saying. When someone resorts to mockery, won’t let an opponent speak for himself, and just throws out paper after paper without careful analysis, that shows they probably don’t have a good argument. 

           

On the Logos

 In the beginning was the Word, and the Word(Logos) was with God, and the Word(Logos) was God.

Re:the meaning of logos one commentary says in part:

(lógos) is a common term (used 330 times in the NT) with regards to a person sharing a message (discourse, "communication-speech"). 3056 (lógos) is a broad term meaning "reasoning expressed by words."]

Biblehub 

Thus Logos implies communication between distinct minds(or at the very least a realistic attempt at such) and not and not mere speech or writing.

So if I opened a book in a language that I don't comprehend even though the text would be visible to me ,the 'Logos' of the author would remain invisible to me, at least until I was sufficiently conversant in that tongue.

Thus the idea that the Logos at John ch.1 could refer to JEHOVAH'S uncommunicated/unexpressed knowledge or wisdom seems unlikely. Logos would be JEHOVAH'S knowledge and/Wisdom expressed/Communicated to (a) distinct mind(s) at John ch.1 it is the living embodiment of that Communication.

Family feud?

Random mutations are Darwinism's main ally?

 BioLogos, Broken Genes, and Urate Oxidase

Cornelius G Hunter 

Arguments for evolution, the theory that the biological world arose strictly by chance and natural law, are at a high level. The details of how microbes, fish, amphibians, reptiles, birds and the rest actually were created by random mutations are hard to come by. But, evolutionists explain, the species look like they evolved. Don’t the comparisons of their anatomy, geographical locations, and so forth, make evolution the obvious explanation for their origin? One of the strongest such evidences, according to Evolutionists such as Dennis Venema, are the so-called shared-errors. Meaningless or, better yet, harmful mutations found in allied species seem to be obvious signs of a common ancestor. For we would never expect such harmful mutations to have arisen independently. They must derive from a common ancestor. This argument has many problems and seems to be another example of how the stronger that an argument is for evolution, the more deeply it is flawed.

One of the problems with this argument is that it cont assumptions.

First, the argument assumes that these mutations are meaningless or harmful. That assumption may well be true but, as any historian of evolutionary thought knows, it is a dangerous. The history of evolutionary thought is full of claims of bad, inefficient, useless designs which, upon further research were found to be, in fact, quite useful.

Second, the argument assumes that these mutations are random. In other words, it assumes there cannot be any common mechanisms, properly operating or otherwise, which could tend toward certain designs and mutations.

In fact convergence is ubiquitous and rampant in biology. Repeated designs appear in species so distant that, according to evolutionary theory, their common ancestor could not have had that design. So even evolutionists must agree that common designs must have arisen independently. And this must have occurred many times over, at both the morphological and molecular levels.

In other instances, such “convergence” must have occurred even in allied species. In fact this is true even for the so-called harmful mutations. For instance, evolutionists believe the urate oxidase enzyme, which catalyzes the oxidation of uric acid, was inactivated in humans and the great apes by harmful random mutations. But the different versions of the gene, in the different species, do not easily align with the expected evolutionary pattern. In fact, even Evolutionists have to agree that several of the various inferred mutations, in these similar species, could not have arisen from a common ancestor. Instead, they must have arisen independently:

                             One exceptional change is a duplicated segment of GGGATGCC in intron 4 which is shared by the gorilla and the orangutan. However, because this change is phylogenetically incompatible with any of the three possible sister-relationships among the closely related trio of the human, the chimpanzee, and the gorilla, it might result from two independent duplications. Alternatively, though less likely, a single duplication occurred in the ancestral species of the great apes and had been polymorphic for a sufficiently long time to permit fixation of the duplicated form in the orangutan and the gorilla on one hand and loss in the human and the chimpanzee on the other hand.

The nonsense mutation (TGA) at codon 107 is, however, more complicated than others. It occurs in the gorilla, the orangutan, and the gibbon, and therefore requires multiple origins of this nonsense mutation.

In contrast, the exon 3 mutation is not shared by H. syndactylus but by the gorilla and the orangutan. The origin of this mutation is therefore multiple and relatively recent in the gibbon lineage.

In other words, when common mutations found in different species cannot easily be explained by common descent, evolutionists do not hesitate to explain them as a consequent of multiple, independent events. This means that, even according evolutionists, similar mutations in allied species do not imply or require common descent. This contradicts the shared-error argument that is supposed to be one of the most powerful evidences for evolution. Unfortunately evolutionists do not include this information in their presentations of the shared-error argument.

The stronger that an argument is for evolution, the more deeply it is flawed.

The biblical case for an old earth.

 The Sixth Creation Day: Biblical Support for Old-Earth Creationism: 

  

Is there biblical support for an ancient Earth? Guest author Travis Campbell makes a compelling argument for old-earth creationism from the sixth day of creation and addresses common young-earth counterarguments.

This is an interesting time in which to be a seeker of truth. We have more reasons to believe in God today than at any other time in the modern era thanks to confirmed facts of nature such as the big bang and anthropic principle. Moreover, the evidence reveals not just any deity, but points specifically to the God of the Bible. Substantiation for the biblical God is set forth in creation’s magnificent display. These evidences, which are anticipated in the biblical record, provide the church with a powerful apologetic, not only for what C. S. Lewis famously called “mere Christianity,” but also for the historical doctrine of inerrancy.

Yet, evidence from big bang cosmology and the anthropic principle, compelling though it is, often meets with rejection from those committed to a young-earth position. Any scenario that entails a 13.7-billion-year-old cosmos is incompatible with a view that dates the universe at 6,000–10,000 years old (based largely on Archbishop James Ussher’s biblical chronology, which calculates a creation date of October 23, 4004, BC).

Young-earth creationists generally refuse to accept the scientific arguments for an ancient cosmos and Earth, even though there is solid biblical support for an old-earth as well. This paper aims to outline a major scriptural argument for old-earth creationism (OEC) and then to address common young-earth criticisms of that argument.

On the Sixth Day

One of the most powerful arguments in favor of the day-age (old-earth) interpretation of the Genesis creation account is what we might call the argument from the sixth day. Put simply, too many events occurred on creation day 6 to be squeezed into 24 hours. Following the overview of creation described in Genesis 1:1–2:4, we read a detailed recap of the sixth day from man’s point of view in Genesis 2:5–25. Together, the two descriptions tell us that on day 6 alone God:

created a host of creatures to live and flourish on the land (Genesis 1:24–25);

created human beings (Genesis 1:26–29)—albeit in two stages, the first one being the formation of the man (Adam) out of the dust of the ground (Genesis 2:7);

planted a garden in Eden (Genesis 2:8);

caused trees and plants to grow in the Garden of Eden in accordance with the same ordinary providence He exercised over creation from the beginning (Genesis 2:9; cf. Genesis 1:11–12, 2:5);

placed Adam in the Garden (Genesis 2:15) and appointed him as its keeper;

made a covenant with Adam (Genesis 2:16–17; cf. Hosea 6:7);

recognized that Adam was alone and noted that this was not a good state of affairs (Genesis 2:18);

introduced Adam to the animals, and allowed him to name them (Genesis 2:19–20);

put the man to sleep, made a woman (Eve) from a part of Adam’s side, and then brought her to Adam (Genesis 2:21–22).

Another support for the day-age view is Adam’s reaction to Eve. When he saw her for the first time, he exclaimed, “This is now bone of my bones, and flesh of my flesh; she shall be called Woman, because she was taken out of Man” (Genesis 2:23, NASB). The Hebrew phrase translated “this is now” (KJV, NKJV, NIV, NASB) is happa’am, which other Bible versions render as “this one at last” (NET, HCSB) and “this at last” (ESV, NRSV). This word choice seems to imply that Adam searched for more than 24 hours to find a mate of his own. As the 2001 New English Translation explains on page 29, note 13, “The expression [happa’am] conveys the futility of the man while naming the animals and finding no one who corresponded to him.”

Given Adam’s expression, plus the sheer number of day 6 events, there is good reason to believe that the creation days were not limited to 24 hours each. Old Testament scholars such as Gleason Archer and John Collins,1 cultural apologists such as Francis Schaeffer,2 cumulative-case apologists such as Kenneth Samples,3 systematic theologians such as Norman Geisler,4 and science apologists such as Hugh Ross5 have been persuaded by this line of reasoning. This particular argument for long creation days was also accepted by renowned, late-nineteenth-century Reformed theologian Herman Bavinck.6

Of course, young-earth creationists are familiar with these arguments for the day-age view and they do raise objections to them. In particular, I will address Jonathan Sarfati’s response to the sixth day issue, which represents a common YEC defense.

Young-Earth Objections: Happa’am

 In his book Refuting Compromise, Sarfati contends that the use of happa’am does not indicate that a significant amount of time passed before Adam met Eve. Specifically, he argues:

Although [Hugh] Ross claims this [happa’am] is “usually translated as ‘now at length’ [or ‘at last’],” this is simply not supported by major translations such as the KJV, NKJV, NIV, or NASB. Nor is it supported by other parts of the Bible. Rather, the lexicons show that while pa‘am has a variety of meanings, and is most often translated “time,” with the definite article it means “this time.”7

Both of these claims are false. First, although the translations Sarfati does mention all render happa’am as “this is now,” he fails to take into consideration the ESV, NRSV, JPSV, and HCSB. As I pointed out above, these versions of Scripture translate happa’am either as “this at last” or “this one at last.” But even the phrase “this is now” does not automatically exclude the possibility that Adam searched for a suitable companion for far longer than a 24-hour day.

Second, uses of happa’am in other parts of the Bible do, in fact, suggest that the phrase may indicate a long passage of time. For example, consider Judges 16:18a (ESV):

When Delilah saw that he [Samson] had told her all his heart, she sent and called the lords of the Philistines, saying, ‘Come up again, for he has told me all his heart.’

The Hebrew phrase for “come up again” is ‘ǎlû happa’am and can also be translated “[come] now, at length” (The New Brown-Driver-Briggs-Gesenius Hebrew and English Lexicon), “come one more time” (HCSB), and “come up at last” (my translation). To paraphrase, Delilah essentially said, “Finally you can come up here, for Samson has at last told me his secret.” The narrative context supports this interpretation. It took Delilah awhile to convince Samson to give in and tell her the secret of his strength (all to his undoing, of course).

Another example is Genesis 46:30, in which Jacob, reunited with Joseph, declared, “Now [happa’am] let me die, since I have seen your face and know that you are still alive” (ESV). The NRSV reads “I can die now [happa’am]” and the HCSB, “At last [happa’am] I can die.” Again, context clearly indicates a long time (years in this case) had passed since Jacob had last seen Joseph. Other examples include Genesis 29:34–35, 30:20, and Judges 15:3.

Furthermore, The New Brown-Driver-Briggs-Gesenius Hebrew and English Lexicon renders happa’am in Genesis 2:23 as “now at length,” as it does with the other texts referenced above.8 Thus, even if Sarfati correctly interprets happa’am differently in other contexts, as he does in Genesis 18:32 and Judges 6:39,9 he still has not refuted the OEC exegesis of Adam’s use of happa’am.10

Young-Earth Objections: Naming of the Animals

As demonstrated earlier, creation day 6 included a large amount of activity, both on God’s part and on Adam’s. It seems intuitive to assume that all of these events could not take place within 24 hours. Specifically, I would like to focus on the timeline of one activity that young-earth and old-earth creationists disagree on: Adam’s naming of the animals.

In a debate on the age of the universe, young-earth proponent Jason Lisle acknowledged that, of all the day 6 tasks, Adam’s naming of the animals is a problem for his view (though not insurmountable).11 Sarfati, on the other hand, does not view it as a difficulty for YEC. He writes:

Scripture explicitly states that Adam named all the “livestock” (…behemah), the “birds of the air” (…‘ôph hashamayim), and all the “beasts of the field” (…chayyah hassadeh). There is no indication that Adam named the fish in the sea, or any other marine organisms, nor any of the insects, beetles, or arachnids. So, like the ark’s obligate passengers, there was only a tiny fraction of all the kinds of animals. Furthermore, the animals Adam had to name were even fewer—Genesis 2:20 omits “creeping things” (…remes, reptile), and the “beasts of the field” are a subset of the “beasts of the earth” of Genesis 1:24. Combining both facts—that “kinds” are broader than species, and that there was only a small subset of all kinds—there are probably only a few thousand animals involved at most.…Even if we assume that Adam had to name as many as 2,500 kinds of animals, if he took five seconds per kind, and took a five-minute break every hour, he could have completed the task in well under four hours.This hardly seems onerous even for people today, and with Adam’s pre-Fall stamina and memory recall abilities, the problem disappears totally.12

If five seconds per animal or animal kind seems an incredibly fast pace, consider that the young-earth view requires compressing the time span of the naming task in order accommodate all the other events of day six. Even one minute per animal would have consumed too much time. On top of that, it’s likely these activities were limited to daylight hours only—for God ended His creative activity at “the evening” of each day, a work ethic that humanity emulates (Genesis 1:27–31; cf. Exodus 20:8–11; Psalm 104:23). Hence, according to the young-earth view, every activity mentioned in Genesis 2:5–25 must have occurred within 12 hours approximately.13

Sarfati’s explanation for the naming of the animals faces several difficulties that, in turn, reinforce the reasonableness of the old-earth view. I will address three of these challenges.

Finding the Animals

While Genesis 2:19 clearly tells us that God brought the animals to Adam to be named, the account is thin on specifics. It is possible that God literally lined up the animals single file and Adam subsequently named them in that order. However, it seems more plausible that God led Adam to the animals’ environments and, in those places, creatures were brought forward to be given a name. There are, after all, famous examples of God bringing a person into a seeker’s presence (Genesis 24:10–21). Perhaps the Lord brought the animals to Adam as he sought a companion for himself. After all, Genesis 2:20 tells us “there was not found a helper fit for him” (italics added),14 suggesting that Adam was seeking each of these creatures out, without finding what he was looking for.

Meaningful Names

Even if we grant that God lined up the animals parade style, we must ask, does it seem reasonable to think that Adam limited himself to only five seconds per animal? Picture Adam glancing at each creature—taking no time to observe or even touch them —and uttering whatever name came to mind first before quickly moving on. Such a scenario strains credulity to a breaking point.

Few Bible students need to be told the importance of names in Hebrew culture. The name of a child often reflected his or her character, just as the name of the Lord, YHWH, is a reflection of His nature. The Jewish practice of waiting until the eighth day of a boy’s life (the day of his circumcision) to give him his name has deep roots grounded in the story of Abram, whose name God Himself changed to Abraham as they made a covenant together (Genesis 17:9–14; Luke 1:57–66). The patience and care the Hebrews took in naming their children reflected the importance they attached to names in general. So, it is not unreasonable to think that the ancient Hebrews would have been astonished, as we are, at the thought that Adam spent a mere five seconds naming the animals.

While I would not press the point that Adam spent eight days per animal, I do think it’s reasonable to believe he spent at least two or three days naming each creature. Even if I granted the low-end numbers proposed by some young-earth creationists (i.e., 1,000 animals)15 and limited Adam’s time to one to two hours per animal (a very reasonable assumption), that still reaches well over 24 hours.

Naming the Serpent

As a specific example of meaningful animal names, consider the description of the serpent in Genesis 3:1b (ESV), “Now the serpent was more crafty than any other beast of the field that the LORD God had made.” In Hebrew, “serpent” is nāḥāsh, meaning “copper or bronze,”16 which may be an allusion to the animal’s shiny scales or color. This noun is related etymologically to the verb nāḥash which, in turn, is related to the noun naḥash, which means “divination or enchantment.”17 The picture painted in Genesis 3:1b, then, is a shiny or copper-colored creature, suggesting something beautiful, that is also enchanting (as in crafty), implying that the creature can be deceptive in certain respects (2 Corinthians 11:14). Thus, the fact that the name fits the description in Genesis 3:1 indicates that it reflects the animal’s behavior.

While we don’t know what language Adam spoke, we are told that he named all of the beasts of the field (Genesis 2:20), and since the serpent is listed as a beast of the field, it’s possible that Adam at least influenced the serpent’s Hebrew name. This idea raises the question, how would Adam possess this understanding of the serpent? The only reasonable explanation seems to be that Adam took his time observing the creature, studying its behavior, and named it accordingly. And if this is true of the serpent, it would easily be true of all the animals Adam named. He carefully observed each and every animal he discovered as he searched for a suitable helper throughout the land of Eden; and after a good while of study and observation, he gave each creature its name in accordance with its behavior.

Critics of this theory may insist that the description of the serpent comes from the narrator’s (Moses) perspective, not from Adam’s. However, since the descriptive name predates Moses, and the name ultimately came from Adam himself (whether in Hebrew or some other tongue), I think it is more plausible than not that Genesis 3:1 reflects Adam’s perspective as well.18

I’d suggest that Adam’s naming of the serpent also sheds light on Paul’s words to Timothy, “For Adam was formed first, then Eve; and Adam was not deceived, but the woman was deceived and became a transgressor” (1 Timothy 2:13–14, ESV). Paul’s point, of course, was not to excuse Adam from sin (cf. Romans 5:12; 1 Corinthians 15:22). Rather, if anything, he was informing Timothy that Adam’s sin was all the more culpable than Eve’s—she could have claimed some ignorance, while he had absolutely no excuses. Why was Adam not deceived? Because he had an adequate knowledge of the serpent’s capabilities. How did he possess such knowledge? Because he had studied the creature and given it its name.

Superhuman Abilities

A final and vital point to address is Sarfati’s argument—not uncommon among young-earth creationists—that Adam possessed superhuman capabilities before the fall. Sarfati contests these “greater abilities would give Adam greater speed at accomplishing his tasks.”19 I have two responses to this point.

First, nothing in Scripture suggests Adam possessed superhuman qualities. Too little is written about him to come to this conclusion. And, if we are allowed to speculate at all about Adam’s capabilities, the Bible itself gives us the grid through which we are to understand him, namely through the second “Adam,” Jesus Christ (1 Corinthians 15:45). Like the first Adam, Christ was innocent of sin, righteous, and pure. Scripture tells us that the second Adam was like us humans in all things, including physical and mental capabilities, yet without sin (Hebrews 4:15). Thus, we can conclude then that pre-fall Adam was also like us average humans in all things (except sin).

Furthermore, the gospels never depict Christ doing anything at superhuman speeds. In fact, His miracles are themselves done patiently, without any hint of rushing through the moment. Jesus’s miracles were not done in His own power as the Son of God; rather as a man He rested in the power of the Spirit to do the Father’s will—thereby giving us an example to follow.20 Therefore, there is no reason to think Adam possessed superhuman capabilities that gave him the power to perform his tasks at tremendous speeds.

Second, even if Adam did possess superhuman abilities, it still would not be relevant to the issue at hand. One of the problems I have with the YEC interpretation of the sixth day of creation is that it rushes Adam and leaves him no chance to enjoy what he is doing. As New Testament professor Vern Poythress helpfully notes in his book Redeeming Science, the YEC reading of this text presupposes a clock orientation embedded in the creation-week, wherein the passing of time is oriented to ticks on a watch.21 It is difficult to read Genesis 2 from such a perspective without envisioning God holding a stopwatch, as it were, and hurrying Adam through his tasks—as if it must all get done before the Sun goes down!

The pace envisioned by the YEC reading has a modern tone to it and fails to appreciate what Poythress calls an “interactive orientation”22 that seems to better capture Adam’s perspective as he performed his duties before the Lord. This type of orientation is one of rhythm, not ticks;23 relationships, not regulations; serenity and concord, not bustle and unrest. It is an orientation where Adam absorbed himself in his task, built relationships with the animals he named, and constantly found himself in jaw-dropping awe over each and every creature he discovered. Superhuman capabilities would have been insufficient to motivate Adam to rush through his tasks; but curiosity alone would have been sufficient to move him to slow down and enjoy the wonderful gifts of God.

Thus, we end our discussion of this topic with the insightful analysis offered by pastor and author Kent Hughes:

The considerable menagerie was likely drawn from Eden rather than from the entire earth. Even so, the process would have been daunting. And whereas before God had been the namer of creation, conferring the names “Day” and “Night” and “Earth” as an indication of his sovereignty over creation, now Adam performed the sovereign naming function. The process challenged Adam’s intellectual capacities. Naming demanded acquaintance and understanding of the animals. It was not a whimsical process of reviewing a ten-mile pet parade and saying, “Um, let’s see…I’ve got it! Aardvark! Ah…Chimpanzee. Oh yes, Zebra. There, you’re Pelican. I like that.”…No, Adam wasn’t Dr. Doolittle on amphetamines. The classic work of Keil and Delitzsch points out that we must not regard the names that Adam gave the animals as merely denoting their outward characteristics, “but as a deep and direct insight into the nature of the animals,” which penetrated far deeper than knowledge that comes from simple reflection. As Adam fulfilled his kingly responsibility of interpreting the animals for what they were and giving them appropriate names, his differentiating power became acute. He saw there was none that corresponded to him. In the process he also realized that many of the animals had a social companionship that he lacked. So Adam began to long for companionship with a being like himself. It is reasonable to surmise that the man began to ache for a corresponding other. God was preparing him to value his helper.24

Conclusion

This paper has looked at two important issues surrounding the argument from the sixth day—namely, that Adam must have taken longer than 24 hours to name every animal God brought before him and that his words to Eve (“at long last!”) suggest he was significantly older than 24 hours when he finally met his wife. Having looked at a popular critique of the OEC appeal to these particular points, I conclude that the argument from the sixth day still stands, both as a powerful critique of the calendar-day perspective as well as a strong argument for the day-age interpretation of the Genesis creation account.

These are not the only considerations a day-age theorist can offer in support of the argument from the sixth day. And, of course, this argument is only one of many biblical proofs of the day-age theory. That said, my hope is that the little I have written on this topic will encourage those who have called old-earth creationists “compromisers” to think twice before doing so again.

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By Travis Campbell

Dr. Travis James Campbell received his PhD in philosophical theology from Westminster Theological Seminary (Philadelphia) in 2004, and currently serves as a history teacher at Deerfield-Windsor School in Albany, GA.