The Language of Our Cells

The Language of Our Cells

Now let’s switch it around. Let’s say I ask you to program the computer to type the word “the”. This is going to require specificity. You must specify, “Computer, type the letter ‘t,’ then ‘h,’ and then ‘e,’ and do this over and over again until your printer runs out of ink or your hard drive crashes.” This is specific, but it is not complex. You can program the computer in this case, like the previous one, with just a few lines of instructions.

Typing random letters or typing a simple word over and over is like the kind of
design that natural processes can handle on their own.

Now let’s look at specified complexity. Let’s say I ask you to program the computer to write out a Harlequin romance novel and make the girl decide to dump the guy in the end. You would have to write a list of instructions for the computer larger than the book itself. You would have to specify, in the form of a command, every letter of every word.

Few people would have thought of Harlequin romances as specified complexity, but as you can see, they are. The commands to the computer are extremely complex and extremely specific. That’s the kind of detail we must demand if we are going to believe that there is intelligent design exhibited in the world.

PROBABLY INTELLIGENT

Seems simple enough, but at what point does something cross the threshold from the simple design found in nature to second-order design produced only by intelligence? Mathematician William Dembski illustrates the difference by having us visualize a rat trying to go through a maze.

In a simple maze, the rat can take one turn and escape from the maze. Even a dim-witted rat could take one turn and escape. But now imagine that the maze is extremely complex, possessing walls and requiring 100 precise turns to reach the point of escape. How likely is it that the little critter will quickly learn all the correct turns and escape? Impossible–unless we have one awfully bright rat.

So, when do we infer intelligence? According to mathematicians when the odds against an event occurring are 1 in 10¹⁵⁰ or greater, it can’t be accidential.1 In order to grasp such an astronomical number, consider that the odds against winning a Power ball lottery with a single ticket is about 1 in 10⁸. Or trying to pick a solitary atom from all the atoms in the universe would be 1 in 10⁸⁰.

So, having cleared all that up, we come to the real question. Forgetting all the erosion and snowflake patterns, are there any examples of specified complexity found in nature pointing toward intelligent design? The short answer is yes. What follows, without getting into too much detail, is
the longer answer. It uses the example of something each of us has heard something about: deoxyribonucleic acid, or DNA.

WHAT A LITTLE STRAND CAN DO

DNA. That one complex molecule contains the complete blueprint for every cell in every living thing. In a sense DNA is like a recipe where common ingredients are used to make different dishes. Only, instead of tasty dishes, DNA instructs cells to make flowers, whales, chickens, or people. (Hmm…so chickens aren’t tasty dishes?)

(This is an excerpt from just one article in Y-Origins. Order your copy here)

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