Proslogion : Page 68 of 112 : Thoughts from a scientist who is a Christian (not a Christian Scientist)

The Young, Faint Sun Is Still a Problem

More than three years ago, I wrote about the young, faint sun paradox. The problem is fairly simple: Based on everything we know about the thermonuclear reactions that power the sun, it is getting more luminous over time. In other words, the sun is producing more light now (on average) than it did in the past. As a result, the farther you go back in time, the dimmer it should have been. This presents a problem, because the dimmer the sun is, the cooler all the planets (including the earth) are. According to what we know right now, the earth would have been too cold to support life 3.6 billion years ago. Modern paleontology assures us, however, that there was life on earth at roughly that same time.

How do those who believe both modern paleontology and our current understanding of the sun resolve this problem? Unfortunately, the all-too-often response is to deny that there is a problem at all. For example, one old-earth website claims that this used to be a problem, but it has since been solved. It cites a 2010 study ¹ that merely suggested a possible issue that might reduce the problem. Based on that single study, the website proclaims:

The solving of this paradox provides us with a clear answer that is easily understood, and should eliminate this paradox from being used as evidence of a young earth. Once again, science has prevailed over the claims of young earth creationism.

Of course, nothing could be further from the truth. Indeed, in just over one year, the very same journal published a paper that categorically showed that the solution proposed by the 2010 paper was insufficient. Even giving the proposed solution the widest possible latitude, it fell short of resolving the paradox by a factor of two!²

In fact, this problem is still so difficult to resolve in the old-earth view that the Space Telescope Science Institute hosted a two-day symposium in hopes of starting to find a solution to it.

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Is A Knee Replacement on That Playlist?

Last month, I wrote an article about an experiment involving spiders and an iPod touch. The results of the experiment were interesting, but I also thought it was really cool that an iPod was integral to the experiment’s design. Well, I just learned about something that I think is is even cooler. It turns out that an iPod touch is being used to assist in knee-replacement surgeries!

The system is called “Dash,” and it is made by a company called Brainlab. It consists of several accessories, such as probes, that attach to an iPod touch. Once everything is sterilized, the surgeon can use the probes to make measurements on the patient while the surgery is in progress. The iPod can then do some calculations on those measurements and show an image that will help the doctor install the artificial knee as accurately as possible. It can also use its WiFi capabilities to send those results to any other device, such as an iPad, if the surgeon wants a larger, more detailed image.

Why would a surgeon use a device like this? Well, in order for the replacement knee to function well, it must be aligned properly. In conventional knee replacement surgeries, the surgeon inserts a metal rod into the femur (the bone above the knee) to help with this alignment. Unfortunately, that process can increase the risk of certain side effects, such as fat embolisms. When using this iPod-based device, there is no need for an alignment rod. In addition, a surgeon who has been using it for more than a year says that the device provides better alignment than the conventional method. This leads to a larger range of motion for the artificial joint. Also, patients experience less pain and swelling after surgery.

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There is No Such Thing…

celegans — This tiny, transparent roundworm has amazing neurons. (Click for credit)

In my high school textbook, I try to emphasize the fact that there is no such thing as a “simple” life form. Even the most basic living organism is a marvel of amazing complexity. Consider, for example, the tiny roundworm, Caenorhabditis elegans, pictured on the left. It is only 1 millimeter long, and because it is transparent, it is very easy to study. In addition, because it’s nervous system is considered “simple,” it has been examined extensively in order to understand how animal nervous systems work.

Why is its nervous system considered “simple?” Well, the functional unit of an animal’s nervous system is the neuron, a sketch of which is given below:

These individual cells receive signals in their dendrites and transmit them through the cell body and down the axon. Most animal nervous systems are made up of many, many neurons. For example, in the part of the brain known as the cerebral cortex, cats have about 300 million neurons, dogs have about 160 million neurons, and chimpanzees have about 6.2 billion neurons. The animal with the largest number of neurons in the cerebral cortex is probably the African elephant, topping off at about 11 billion neurons, but the false killer whale comes in as a close second, at about 10.5 billion. By comparison, the cerebral cortex of a person contains about 11.5 billion neurons.¹

The entire nervous system of C. elegans is a mere 302 neurons. That’s really simple compared to people and animals isn’t it? Well…not exactly.

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Has NASA Finally Found Life on Mars?

A friend of mine told me about a news story he heard on NPR. He said that NASA had some “really exciting” results from the Mars rover named Curiosity, but they were not ready to release the results to the public yet because they wanted to confirm the data. My friend wondered if perhaps NASA had finally found the remains of life on Mars. I found the story on NPR’s website, and it sounds like my friend’s expectation could be right.

According to the story, the principle investigator, Dr. John Grotzinger, says:

This data is gonna be one for the history books. It’s looking really good.

Dr. Grotzinger is waiting to release the results, however, because NASA has been burned a couple of times before. Back in 1996, NASA scientists published a paper that claimed a meteorite from Mars (named ALH84001) held tell-tale signs of bacteria, indicating that there was once life on Mars. As more scientists studied the meteorite, however, several problems with that interpretation were found. As a result, even though some NASA scientists are still saying that the meteorite holds evidence of life on Mars, the data are inconclusive at best.

In addition, NASA scientists published a paper in 2010 claiming to have found a bacterium that could incorporate arsenic into its biochemistry. NASA said that this finding would change the way we think about bacteria and would help us better understand the possibilities for life on other worlds. However, in just a couple of years, two very detailed studies showed that the original NASA claim was incorrect. It’s understandable, then, that NASA scientists are being careful when it comes to the release of any surprising data from the Curiosity rover.

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Homeschool Graduates Rock Baylor University

I was recently made aware of a 2010 analysis that was done by Baylor University’s Office of Institutional Research and Testing. It compared first-time Baylor freshman who were homeschool graduates to the rest of Baylor’s first-time freshman population over a period of four years. I think the results will be helpful to those who are wondering whether or not home education adequately prepares a student for the academic rigors of university.

The first thing the analysis noted was that homeschool graduates had significantly higher SAT and ACT scores than the rest of the population. The homeschool graduates, for example, averaged 115 points higher on the SAT than the rest of the student population. While that is interesting, the really important result is how the homeschool graduates performed in their freshman year at Baylor. In the end, the average homeschool graduate had a freshman grade point average (GPA) of 3.364, while the average for the rest of the freshman class was 3.038. Here is a bar graph that illustrates this result:

baylor1 — Average freshman GPA's for homeschool graduates and non-homeschool graduates at Baylor University from 2005 to 2009

The black bars on the graph are called error bars, and they demonstrate the possible error that exists in such a measurement. When you study a group of people, it is always possible that the people you have studied are not quite representative of the population you are trying to understand. As a result, whatever you measure might not be an accurate measurement of the population in general. Using statistics, it is helpful to estimate how much your measurement might be in error. The crudest way to do that is to use the size of the sample you are studying as a guide. The more people you study, the more accurate your representation of the population should be. In this analysis, they had a huge population of non-homeschool graduates (14,078) but a small population of homeschool graduates (151). As a result, the error associated with the homeschool graduates is large, while the error associated with the non-homeschool graduates is small.^*

In general, the way you treat error bars is to assume that the measurement can actually be anywhere within the range of the error bar. For the homeschool graduates, then, the measured average was 3.364. However, based on the error bar, it could actually be anywhere from 3.090 to 3.638. For the non-homeschool graduates, the measured average was 3.038, but it could actually be anywhere from 3.012 to 3.064. The important thing to note is that even if you take the lowest value for the homeschool graduates and the highest value for the non-homeschool graduates, the average for the homeschool graduates is still higher. This means the analysis provides strong evidence that the average homeschool graduate does better than the rest of the population during his or her freshman year at Baylor. While I find that interesting, I think a more detailed look at the data is even more interesting.

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Homeschooling in Wadsworth, Ohio

On Monday of this week, I was invited to speak at a meeting of the Kingdom Way Homeschoolers in Wadsworth, Ohio. It was held on the Wadsworth campus of the The Chapel, which was a wonderful venue. The auditorium had really excellent acoustics, and it had a nice, open feel to it. The back wall of the stage had a modern design on it, and the design was backlit with different colors. Once the technical support person (who was superb) put up my presentation, a young lady then changed the colors of the backlighting to match the color scheme of my presentation. I thought that was a very nice touch.

The title of my talk was Why Homeschool Through High School…and How to Get It Done. In the first part of the talk, I went through some data that indicate students who are homeschooled through high school are better prepared for the future than their traditionally-schooled counterparts. In the second half of the talk, I went over some “nuts and bolts” related to homeschooling at the high school level. I discussed the basic subjects that should be covered and gave some suggestions regarding how you might cover those subjects.

This particular talk was a bit longer than most of my talks, because I covered a lot of ground in it. However, the large crowd was very patient and seemed to enjoy the talk. As is typically the case, I took questions at the end of the talk, and they were quite good. There was one in particular that really got me thinking. A gentleman asked about apprenticeships and trade schools. Since my talk was focused on university preparation, I thought he was asking me to talk a bit about what to do with students who aren’t university-bound. I told him that just as I am a fan of having university-bound students take a few classes at a local college or a few AP classes to give them a preview of what university will be like, I also am a fan of having non-university-bound students do apprenticeships or take classes at a local trade school to start career exploration.

That really didn’t address his question, however. He wanted me to specifically compare the two. For a non-university-bound student, which would be better: some sort of apprenticeship or taking classes at a trade school? I had never considered that before, and I told him as much. However, I was happy to “think out loud” for him.

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The Eclipse in Brisbane, Australia

On November 14, there was a solar eclipse that was visible from Australia, New Caledonia, New Zealand, South America, and Antarctica. I would have loved to use it as excuse to visit any of those places, but unfortunately, I couldn’t. However, I was pleased to receive the next best thing. A wonderful home educator who is field-testing my new elementary science curriculum with her family, Marianne Trinham, sent me pictures of the eclipse as seen from Brisbane. I hope you enjoy them!

While the eclipse was total in northern Australia, it was not total in Brisbane. Here is an image of the maximum of the eclipse as seen there:

How did this family get that image? They used binoculars to project it onto a white sheet of paper:

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Yet Another Failed Evolutionary Prediction

Look at the unassuming worm pictured on the left. It is commonly called a cactus worm, but this particular species is known as Priapulus caudatus. According to evolutionists, cactus worms have been around for at least 500 million years.¹, but they just recently falsified yet another prediction made by the hypothesis of evolution. To understand the prediction and why it has failed, you need to learn some background information.

There are many different ways scientists classify animals, but one of the broader ways it is done is by symmetry. Most of the animals with which you are familiar are bilaterally symmetric. This means their bodies can be split into a left half and a right half, and those two halves are roughly mirror images of each other. Cats, dogs, and horses are all bilaterally symmetric, as they all have distinct right and left sides that roughly mirror each other. In addition, cactus worms are bilaterally symmetric. Since there are a lot of animals that have this kind of symmetry, scientists have to find characteristics among the bilaterally symmetric animals that will further classify them.

Well, there are two different ways that bilaterally symmetric animals develop their digestive tract. In all these animals, a puckered indentation forms in the embryo. This indentation, called the blastopore, forms the beginning of a tube that will eventually develop into the digestive tract. However, in some bilaterally symmetric animals, that blastopore ends up becoming the mouth, while in other bilaterally symmetric animals, the blastopore ends up becoming the anus. In other words, some animals start their digestive system with their mouth, while others start their digestive system with their anus. The “mouth first” animals are called protostomes, which is a combination of the Greek word “protos” (which means first) and “stoma” (which means mouth). The “anus first” animals are called deuterostomes, which means “mouth second,” since the Greek word “deuteros” means “second.”

So when a biologist looks at an animal that is bilaterally symmetric, one of the first questions that comes to mind is, “How does the digestive tract develop?” That tells the biologist whether the animal is a protostome or a deuterostome. Well, it turns out that studying the embryonic development of animals is rather time-consuming, so scientists often use other characteristics to infer the group to which an animal belongs. With all that under your belt, you are now ready to learn about the falsified evolutionary prediction.

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A Large, Detailed Study Confirms Another Failed Evolutionary Prediction

lebrea — The La Brea Tar Pits as imagined by Charles R. Knight (public domain image)

Paleontologists have long recognized that the fossil record produces a serious problem for the hypothesis of evolution. Almost thirty years ago, Dr. David Wake and his colleagues stated:¹

With natural selection operating in a changing environment as an agent of adaptation, we expect to see changes at the organismal, ultimately physiological and morphological, level. How, though, can we explain the paradoxical situation in which environments change, even dramatically, but organisms do not?

In other words, evolution predicts that in a changing environment, organisms should change in order to adapt. However, when we look at the fossil record, we don’t see such change. Instead, while it is thought that earth’s climate changed dramatically in many different ways throughout the fossil record, the fossils themselves show that the organisms living on earth didn’t change much at all. This has been called the “paradox of stasis,” and while several attempts have been made to resolve the problem ², none of them have been found to be satisfactory.³

In an attempt to understand the paradox of stasis better, Dr. Donald Prothero undertook a series of amazingly detailed studies. With the help of a small army of students, Prothero studied the fossils of all the common birds and mammals that have been preserved in the La Brea tar pits of Los Angeles, California. According to the standard geological view, these tar pits preserved species that lived in the area over a period of time when the region experienced wild climate change. It is thought that 35,000 years ago, the Los Angeles, California area had a very similar climate to what it has today. During the height of the last ice age (20,000 years ago), however, it was significantly colder and significantly wetter. As the ice age waned, the climate returned to what it was 35,000 years ago.

From an evolutionary point of view, one would expect that over the course of this dramatic change in climate, the birds and mammals living in the area would have experienced some amount of evolutionary change in order to adapt to their surroundings. However, that’s not what this series of studies found.

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What Do Spiders Do With All Those Eyes?

spider_eyes — This photo shows four of the eight eyes on a jumping spider. The middle two are the principal eyes, and the other two are the anterior lateral eyes (ALEs). (click for credit)

Most spiders have eight eyes, and their arrangement varies depending on the type of spider. In fact, when studying a spider, scientists often use the number and arrangement of the eyes to help them classify the specimen.¹ What does a spider do with all those eyes? Well, in the case of a jumping spider, we know that the two large eyes near the center of the head are the spider’s principal eyes. They can see sharp images, are sensitive to color, and can move to track a target.

The eyes that are right next to the principal eyes are called the anterior lateral eyes (ALEs). They cannot move, do not seem sensitive to color, and as far as we can tell, don’t really allow for the spider to see images. Instead, it has always been thought that these eyes help the spider detect motion.² But what about the principal eyes? Do they detect motion as well? Three researchers decided to determine the answer to that question by conducting a interesting experiment with some spiders and an iPod touch.

They ended up using removable paint to “blind” specific eyes of jumping spiders from the species Phidippus audax. For 16 of the spiders, they used the paint to “blind” only the principal eyes. They then used the paint to “blind” only the ALEs of 14 other spiders. Finally, they used 16 spiders with none of their eyes “blinded” as a control group. One at a time, they put the spiders in an “arena” that had four walls. Three were foam-core walls, and the fourth wall was the screen of the iPod touch. They allowed each spider to acclimate to the arena and waited for its head to face the screen. When that happened, they remotely started an animation of a black circle either looming towards the spider or retreating from the spider. The results they got were quite interesting.

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