Star and Planet Formation

Star and Planet Formation and the Webb Telescope
Webb image of the Tarantula Nebula star-forming region

Yesterday, we discussed the new information about the construction and size of the cosmos we are learning from the James Webb Space Telescope. The Webb telescope shows us the size of God’s physical creation as NASA continues to pump out new discoveries and better understandings of star and planet formation. Search “James Webb Telescope” on your computer and see for yourself.

One of the better understandings from recent Webb telescope data is what it takes to make a planet like Earth. The conventional understanding of planet formation was that as stars formed, they threw off material that gravity pulled together, forming planets. The Webb telescope has the resolving power and the infrared light-gathering ability to observe planet formation in different stages.

The first step in planet formation is for the star to actively produce elements needed for terrestrial planet formation. Quiet stars do not make the necessary elements since heavier elements will move toward the star’s center, not outwards. The star must spin fast enough to throw out the required heavy materials. That means gaseous planets like Jupiter are much more common in the cosmos than terrestrial planets like Earth.

The heavier elements in a planet come from exploding stars. That means planets will be more likely in certain types of galaxies, and galaxies have an evolutionary history, changing with time. The Webb telescope actually observes the changes in galaxies and star and planet formation. The creation process is still active, and new planets are being formed as we watch.

In manufacturing, we know that a machine is designed to take raw materials and mold and shape them into the desired final product. Years ago, I worked for a man who designed and built such machines, and his wisdom and creativity were incredible to watch. This designer didn’t use a blueprint or follow a manual. He had the skill to comprehend what the final machine would look like and what it would do.

As we watch star and planet formation take place, we see the wisdom and creativity of God. The writer of Proverbs wrote, “O you simple ones, understand wisdom and you foolish ones, be of an understanding heart” (Proverbs 8:5). The Webb telescope allows us to see the wisdom of the Creator in ways we have never imagined.

— John N. Clayton © 2024

What We Learn from the Webb Telescope

What We Learn from the Webb Telescope
Webb image of star-forming region NGC 3324 in Carina Nebula

With all the distractions going on in the world, it is easy to miss perhaps the most remarkable engineering accomplishment of human history. A telescope launched on Christmas Day 2021 is now much further from Earth than the Moon is. The Webb Space Telescope consists of 18 hexagonal mirrors with a total area of 273 square feet (69.54 x 46.46 feet) and can see things in space that can’t be viewed from Earth’s surface. The cost to make the telescope and place it in space was 10 billion dollars, so is it worth the price? Yes, it is! What we learn from the Webb telescope tells us more about God.

More than 40 years ago, J.B. Phillips wrote a book titled Your God is Too Small. The first thing we learned from the Webb telescope is that the cosmos is much bigger than we can imagine. The telescope can see things that no optical device on Earth can. We live in a galaxy containing roughly 100 billion stars, and we know there are many other galaxies in space. Webb has shown us vast numbers of distant galaxies, and as we measure how far away they are, we see what the creation looked like billions of years ago.

Let me give you a simple explanation of what that means. If you travel to a place 100 miles away at 50 miles per hour, how long will it take to get there? The answer is two hours. When we measure how far away these galaxies are, we can tell when the light we see left them. Light travels at 186,000 miles per second. Doing the same calculation, we know the light reaching the Webb telescope left those galaxies some 13 billion years ago. We are looking backward in time to near the beginning of creation.

The latest pictures from Webb show that these old galaxies are flat like a sheet of paper. We learn from the Webb telescope that the creator was molding and shaping galaxies into a form that would allow planets and, ultimately, life to exist. As we understand the creation process, we see power beyond what we can imagine. Like all scientific discoveries, that raises many new and exciting questions for us to study and understand. It further tells us how unique Earth is and raises an old question the ancients asked about God, “What is man that you are mindful of him” (Psalms 8:4).

— John N. Clayton © 2024

Earth Is Designed to Sustain Humans

Earth Is Designed to Sustain Humans

Nearly every day brings an announcement of discoveries by various space agencies showing that our unique planet Earth is designed to sustain humans.

The Webb space telescope found a planet as large as Jupiter but much less dense, and researchers have dubbed it the “cotton candy planet.” It has winds up to 10,000 mph and large amounts of sulfur dioxide in an atmosphere of sand that acts like rain. Another discovery from the Webb space telescope is that there are free-floating planet-sized objects similar in size to Jupiter but not in orbit around any star. No model of planet and star formation explains these strange objects.

Discoveries of the Webb telescope show the complexity of the cosmos, complicating travel in space. Additionally, NASA has released data showing that humans suffer significant body changes in weightlessness for an extended time. Astronaut Scott Kelly was in space for roughly a year, and his heart diminished in size by nearly a third and became rounder. Astronauts have had bone density changes of up to 2% a month, and radiation significantly affects their DNA. Reported psychological issues called “detachment phenomena” make astronauts unreceptive to instructions from mission control.

Humans were created to live on planet Earth, and Earth is designed to sustain humans. Simply transporting humans to a space environment doesn’t work easily. Creating an environment similar to what God gave us will require massive scientific work and may be impossible. The idea that people can survive on other planets going around other stars in the near future makes good science fiction but is not practical. We must learn to get along and solve our problems here on Earth. The belief that we are here by chance becomes harder and harder to accept as we learn more about both space and ourselves.

— John N. Clayton © 2023

Reference: The Week for December 8, 2023, pages 11 and 22, and October 20, 2023, page 22.

Acceleration of Time in the Cosmos

Acceleration of Time in the Cosmos

The Webb space telescope has shown an acceleration of time in the cosmos. Dr. Geraint Lewis and Dr. Brendon Brewer at the University of Sydney’s School of Physics and Astronomy authored a study of quasars that provides a way to measure time.

Quasars are highly luminous objects in space powered by supermassive black holes. The Webb telescope has observed a quasar that is so luminous it outshines the Milky Way galaxy by 100 times. As a quasar, its variations in brightness act as a cosmic clock. The researchers have determined that time flowed five times slower in the past than in our galaxy today.

This makes no sense to most of us until we remember that God created time. Time had a beginning, and the Hebrew of Genesis 1:1 makes that clear. The Bible also talks about things that happened before time began and describes God as being outside of time. (See Proverbs 8:23. Revelation 1:8, 1:11, 21:6, and 22:13/) The discoveries of the Webb telescope and quantum mechanics clearly show that time is not an ethereal substance but a created thing that flows through the physical world.

The measurements of time by the Webb telescope and in laboratories on Earth show an acceleration of time in the cosmos. The Bible refers to God stretching out the cosmos (Isaiah 40:22, 44:24, 45:12, and 51:13). That fits well with the evidence that the creation began with a singularity that was not merely a physical process but also the creation of space and time by the God who exists outside of space and time.

Ancient people looked to the sky and were amazed at
the creation they observed. Now that we have better tools and a fuller understanding of the processes, the wonder of creation is even greater than it was in Moses’ day.

— John N. Clayton © 2023

Reference: The journal Nature Astronomy for July 3, 2023

Searching for Signs of Alien Life

Searching for Signs of Alien Life - OSIRIS-REx
OSIRIS-REx being prepared for launch

The National Aeronautics and Space Administration (NASA) is searching for signs of alien life in the universe. NASA’s astrobiology program is renewing efforts to answer the question, “Does life exist elsewhere in the universe?” We find life all over this planet. Life is everywhere on Earth, from frigid climates to arid deserts and ocean depths to mountaintops. But does it exist anywhere else?

Currently, NASA is searching for microbial life on Mars with two robotic rovers, Curiosity and Perseverance. Those rovers are exploring rocks in fossilized waterways on the planet, seeking any indication that microbes once lived there. NASA and the European Space Agency (ESA) are working to develop a Mars sample return mission to bring rocks back to Earth for closer examination.

In December of 2018, NASA spacecraft “Origins, Spectral Interpretation, Resource Identification, Security, Regolith Explorer” (OSIRIS-REx) arrived at the asteroid Bennu after traveling for two years. It orbited Bennu to map the surface and find a good landing spot to obtain samples. In October 2020, OSIRIS-REx touched down on the asteroid, procured a sample, and prepared it for delivery to Earth. In May 2021, the spacecraft departed from Bennu and is expected to arrive back home in September 2023. Scientists will then study this very expensive rock sample, searching for signs of alien life.

Astrobiologists are hopeful that Enceladus and Europa, moons of Saturn and Jupiter respectively, might support some form of life now or in the past. The new James Webb Space Telescope (JWST) is also involved in the search for alien life. It can detect “biosignatures” around exoplanets, planets outside of our solar system. In all these ways, NASA is searching for signs of alien life in the universe.

Heather Graham, a NASA astrobiologist at the Goddard Space Flight Center in Maryland, says, “We don’t actually know yet how life on this planet began….” Of course, NASA is looking for some natural explanation of how life began. Graham further said that we must “roll back that clock to see how life began.” Why not roll back the clock all the way to the beginning? Science can’t explain how the universe began. Not very long ago, scientists thought the universe was eternal, and they made fun of the idea that the universe had a beginning. However, they reluctantly had to admit that the evidence shows there was a beginning, as Genesis has said for thousands of years.


Perhaps some are motivated to search for signs of alien life to show that God is unnecessary. Will science someday find that there is life, even microbial life, elsewhere in the universe? Perhaps, but if there is, God created it since He created the universe.

— Roland Earnst © 2023

Reference: “Is There Life Beyond Earth?” on YouTube

Seeing Invisible Light

Seeing Invisible Light - Infrared image of asteroid belt around a young star
JWST infrared image of never-before-seen asteroid belts around a star 25 light-years from Earth

In ancient times, people looked up into the night sky in wonder. Without modern light pollution, they could have seen the stars more clearly, but they had only their unaided eyes to see the majestic sky. The first revolutionary change occurred when Galileo made and used an optical telescope. However, he was limited by being able to see only the visible spectrum of light. Today, astronomy involves “seeing” invisible light.

Light is electromagnetic radiation, and our vision can detect only a very narrow range of the electromagnetic spectrum. But astronomers today have instruments that allow them to “see” light frequencies in wavelengths outside the human vision range. Yesterday we discussed two portions of the spectrum invisible to our eyes – radio waves and microwaves. Those frequencies can tell us many things about the universe God created. Today, we will examine more ways of seeing invisible light.

The higher the light frequency, the shorter its wavelength. Microwaves have wavelengths between one meter and one millimeter. The next higher frequency of light has wavelengths below one millimeter, so they are called submillimeter waves. One weakness of optical telescopes is that visible light can’t penetrate clouds of gas and dust in regions where stars are forming, but submillimeter waves can. However, water vapor in our atmosphere absorbs submillimeter waves, so astronomers build observatories for studying them in dry, high-altitude locations such as the mountains in Chile and Hawaii.

We find infrared light at even higher frequencies and, thus, shorter wavelengths. Although we can’t see infrared energy, we can feel it as heat. The James Webb Space Telescope (JWST) leads the revolution in infrared astronomy. Scientists have used infrared sensors to measure the temperature of stars, including our Sun, but the Webb Telescope takes that to a new level. It can detect emerging stars hidden by clouds of dust and gas. The JWST can also observe matter that is only a few degrees above absolute zero. In only its second year, JWST has sent back images that allow us to see space objects we have never seen before.

Just above the infrared frequencies, we find optical light. Optical telescopes have been showing us many features of the universe since Galileo, but they have limitations. Not all objects in space produce optical light. For example, we can only see the planets in our solar system because they reflect the Sun’s light. Also, our atmosphere scatters optical light giving us the blue sky in the daytime and atmospheric blurring of the stars at night. Optical telescopes are usually the only option for amateur sky watchers, but for the sharpest viewing, professional astronomers locate their optical telescopes on tall mountains or in space. The Hubble Space Telescope is the leader in optical astronomy.

Although visible light can tell us much about God’s creation, seeing invisible light has opened a new understanding of how the Creator has produced the elements essential for life. Three types of light have higher frequencies and shorter wavelengths than visible light. Those short wavelengths contain the energy to harm or destroy life, but God has provided the protection we need. We will look at that tomorrow.

— Roland Earnst © 2023

Find more information about this picture at Sace.com.

Cosmos Creation Model and the Webb Space Telescope

Cosmos Creation Model and the Webb Space Telescope

One of the beautiful things about science is its methodology. Even when a theory is widely accepted in the scientific community, it still can be proven wrong and end up being discarded. An example of that is suggested by what the latest pictures from the James Webb Telescope are doing to the cosmos creation model.

The classical cosmos creation model suggests that the big bang produced matter/energy, resulting in atoms and molecules. The gravitational attraction of those molecules began to produce clouds of stars and dust. Those clouds then coalesced into small galaxies that grew and merged. Larger galaxies formed over time and are still developing.

Astronomers looking into space see galaxies interacting and sometimes even merging. The Webb telescope looks back farther than ever before toward the beginning of the cosmos. Early galaxies should be small with relatively small masses compared to the enormous galaxies like our Milky Way. However, Dr. Joel Leja from Penn State University has revealed that the latest observations by the Webb telescope do not support the widely accepted cosmos creation model.

The Webb telescope has discovered six large, fully-formed galaxies with huge masses. These supermassive galaxies are near the starting point for the expansion of the cosmos, so researchers are struggling to understand how they can exist. Some suggest they are supermassive black holes, but scientists think that black holes of this size are relatively late productions of galactic evolution.

None of this has any bearing on the cosmological argument for the existence of God as the creator. This research does not answer the question of the origin of space, energy, and time. However, it does upend the classical model of the creation and expansion of the cosmos. God is the creator of the cosmos, and His methods are so complex that human attempts to produce a cosmos creation model will take many more years of study and exploration. Indeed, “The Heavens declare the glory of God; and the firmament shows His handiwork” (Psalms 19:1).

— John N. Clayton © 2023

Reference: “The galaxies that shouldn’t exist” in The Week for March 10, 2023 page 21.

A Remarkable Tool of Astronomy – The JWST

A Remarkable Tool of Astronomy – The JWST image of Carina Nebula
JWST Image of the Carina Nebula with stars never seen before

On July 12, 2022, NASA released the first public images from the James Webb Space Telescope (JWST), launched on December 25, 2021. JWST is a remarkable tool of astronomy that can see objects in outer space not visible to Earth-bound telescopes. Dr. Scott Acton is a 1984 Abilene Christian University graduate who worked on the JWST for almost 24 years as a wavefront sensing and controls scientist. As a Christian, he said, “Seeing these images will increase your faith.”

In February, Dr. Acton’s team was privileged to download a “throwaway” image from a JWST fine guidance sensor, which brought him to tears. He described his feelings by saying, “I realized that single image contained probably 500 galaxies that had never been seen before.”

As a remarkable tool of astronomy, the JWST enables us to expand our understanding of the incredible size and magnitude of the creation. As the tools of observation improved, astronomers realized that our Milky Way galaxy was just one of many. Thanks to the JWST, we can now see countless galaxies that astronomers have never seen before, and each one contains billions of stars, many of which have planets orbiting them.

These distant galaxies send out all kinds of light – not just visible light. The JWST can see the light invisible to our eyes and see it without the obstruction of our atmosphere. That light can tell us the history of creation and testify to the truthfulness of what the Bible says about creation.

In Job 38:6-7, God says to Job, “Upon what are the foundations of the earth fastened and who do you think laid the cornerstone when the morning stars sang together?” Dr. Acton says that he imagined the galaxies singing: “Not in any kind of language that people could understand, but certainly the emotion we can understand. I would call that emotion joy. It’s almost like the galaxies or the universe was happy that after all this time, we could finally see them.”

The pictures from this remarkable tool of astronomy will give us more evidence that the creation of the cosmos had a beginning in which time and space came into existence. We can see the evidence of design and purpose everywhere in the cosmos and on Earth. If there was a beginning, there had to be a cause, and that cause was “Elohim,” the God of Genesis 1:1.

— John N. Clayton © 2022

Reference: The Christian Chronicle for August 2022, pages 18-19.

The What and Why of JWST

The What and Why of JWST
James Webb Space Telescope with its gold-plated mirrors

If all goes as planned, Christmas Eve will see the launch of the James Webb Space Telescope (JWST or WEBB). It has been a long time in the making with many delays and cost overruns, but it seems that the time has finally arrived. The JWST was supposed to launch in 2007 at the cost of $1 billion. Now it is launching at the end of 2021, and the price has escalated to $10 billion. Let’s examine the what and why of JWST.

First, the what of JWST. The James Webb Space Telescope is a successor to the Hubble Space Telescope (HST or Hubble). It is intended to be a space observatory with capabilities far beyond HST, which was launched in 1990. NASA designed the JWST, and Northrop Grumman built it in California. The European Space Agency will launch it from their launch site in French Guiana, South America.

The why of JWST is that scientists expect it to revolutionize astronomy and expand our knowledge of the universe. Science and technology have made great strides since Hubble was launched and even since astronauts repaired and updated it, most recently in 2009. JWST will observe the universe in infrared light, while HST is limited to visible light. Because galaxies farther away are retreating at increasing speeds, their light shifts toward the red or infrared spectrum. Scientists hope that JWST can observe farther back toward the cosmic creation event known as the big bang. Because of that, astronomers expect to learn more about the formation of stars and galaxies.

Earth-based telescopes must always observe the universe through our atmosphere with particles, pollution, and moisture. That limits their ability to obtain sharp, precise images. Space-based telescopes, like Hubble, eliminate that problem. Webb will give much sharper images with its mirror made of beryllium coated with gold and a diameter more than 2.5 times as wide as Hubble’s.

JWST will locate itself at the Lagrange point where the gravity of Earth and Sun balance each other. That is 930,000 miles (1.5 million km) from Earth. Repairs or upgrades such as those performed on Hubble will not be possible at that distance. That means everything will have to perform flawlessly when the telescope reaches its destination. Deploying the mirror, sun-shield, super-cooling equipment, and telemetry equipment will take a month, which NASA has called “29 days on the edge.”

Another thing that astronomers hope to study with JWST is dark matter, the stuff that’s out there but cannot be seen or detected by any means science has discovered. The way they know dark matter must be there is that it holds the galaxies together. Physics cannot explain why spinning, spiral galaxies, such as the Milky Way, do not fly apart because of centrifugal force. Astronomers hope that JWST’s high-definition images can at least show us where the dark matter is by what they call “gravitational lensing.”

So that is the what and why of JWST. We are excited to see the new images of the universe the James Webb Space Telescope will capture. As we learn about the formation of stars and galaxies, it opens the door to knowledge of God’s handiwork, allowing us to say, “So that’s how God did it!

— Roland Earnst © 2021

Reference: You can find much more about the James Webb Space Telescope at NASA’s fact sheet at THIS LINK.