Stellar Lifecycles – A final Paper

Stellar Lifecycles

PHY1000 SECTION 1

Monday, December 08, 2008

Jediah Logiodice

Contents

Introduction 3

Terra Mater – Surviving on Planet earth 3

Introduction

One commonly held view of the creation of the universe states that “In the beginning, God created the heaven’s and the earth” (Gen 1:1 New International Version); another common view of the creation, while not contradictory, definitely less mystical goes a little something like this: “Bang!”.

Fast forward some 14 billion years, and zoom in billions of light years to this spiral galaxy called the Milky Way, into this cluster of planets within a solar system that surrounds a small, yellow dwarf sun, to a tiny little planet, that at first seems quite insignificant, and yet with a careful study of the universe it is found that creation has been tuned to bring about a species called humanity apparently for the very purpose of allowing humans to ask the most basic of fundamental questions like: “Where did we come from?”, “Why are we here?” and “Where are we going?”.

Terra Mater – Surviving on Planet earth

To begin our journey, we find that this planet maintains a very delicate harmony with aerated oxygen compounds, with nitrogen cycles, and with water cycles which provide a basic substance for life to flourish. These components all maintain coherence within an atmosphere that not only provides a base for these complex cycles, but also traps heat warming the surface and filtering out harmful radiation from bombarding the flora and fauna that has taken up residence.

On top of this atmospheric cocoon we find a magnetic shield also providing protection from harmful forms of radiation. We find a moon in harmonious dance, feeding into tidal waves that pull the oceans to and fro aerating the oceans and providing for a flourishing of oceanic life. And still, even further out, we have this star, called the sun that provides heat and warmth and the breath of life through photosynthetic planetary life. By whatever appropriate means you come to the final conclusion, it appears undeniable that the universe and everything within it was finely tuned to produce life. And thank goodness for that, or otherwise, I would not be here writing this paper, and you, in turn would not be reading it.

A further review of this tiny little planet would show that while most of these tiny little objects we call humans are busy scurrying around from day to day, unaware sometimes of how immaterial they really are, we also find that among these humans there are those that will pause, look up and think about what is out there, somewhere beyond the troposphere, beyond the stratosphere, the thermosphere, and even beyond the exosphere; far out in the dark night sky.

The story of this astronomical undertaking begins with such an individual; his name was Isaac Newton.

While there were many important names attributed to discoveries and classifications of astronomy long before Newton, like Johannes Kepler, who provided fundamental concepts around planetary motion, it was Isaac Newton who created three universal laws that explained motion on a grand scale. Newton’s laws were so fundamental to the understanding of the universe, that Newtonian Physics dominated the world of physics for a few hundred years, until the introduction of Quantum mechanics in the late 1800s.

Stellar Properties

While Newton’s version of Kepler’s third law of planetary motion was able to provide information about the mass of stars when found in a binary system, he had even more to offer within the world of astronomy than just the laws of motion, for it was Newton who first provided insights into the nature of light (Bennett, Donahue, Schneider, & Voit, 2007, p. 148).

Through advancements of the study of light (spectroscopy) that came later, scientists and astronomers found that through emission and absorption lines they could determine the chemical makeup of distant light producing objects (Bennett, Donahue, Schneider, & Voit, 2007, p. 162).

Additionally, by examining the spectrum provided by these objects in conjunction with observational laboratory studies of spectral lines of known chemicals, scientists could also determine if objects where moving towards our planet, or away from our planet, and could even determine how fast these objects were themselves rotating (Bennett, Donahue, Schneider, & Voit, 2007, p. 168). Another use for spectral lines was later found in categorizing the surface temperature of stars (Bennett, Donahue, Schneider, & Voit, 2007, pp. 508, 509).

Further investigations of stars provide detailed information about the stars luminosity and their apparent brightness. By measuring a stars visual brightness, and measuring a stars distance (e.g. through parallax) we can then determine how bright a star really is through the inverse square law.

And so, we find that Newton and his discoveries paved the way for understanding a stars luminosity, temperature, density, and chemical composition!

Stellar Life

As we look out into the night sky, we can tell, sometimes even with the naked eye, that not all stars are created equal. Based on a stars surface temperature, some stars produce reddish light, some stars produce white light, and some stars produce yellow light, and some stars may even produce blue light (Bennett, Donahue, Schneider, & Voit, 2007, p. 508). While some may be tempted to speculate that the more yellow and white stars are happier stars than the redder (angry) and bluer (sad) stars; for a star, brightness depends not on its cheery disposition, rather it depends on its most fundamental property at birth: mass.

From birth to death, a stars lifetime is strongly influenced by the mass it is first created with. The larger a star, the faster and hotter it burns, the heavier the elements it produces through its nuclear fusion process which are essential to life, and the more spectacular its final days of destruction will be.

While a massive star will end in a supernova that leaves behind a neutron star, smaller main sequence stars will most often outlast these stars by millions of years.

A main sequence star will begin by the compression of hydrogen and helium until the force of gravity heats the core enough to initiate nuclear fusion. The main sequence star will continue in this state through gravitational equilibrium for millions of years, which is the state that the sun is currently in.

Once the main sequence star has used up all of its hydrogen fuel, there is no longer enough outward pressure to keep the star from collapsing under the great gravitational weight. As the star begins to collapse inwardly, layers of hydrogen surrounding the collapsing core will heat up until the layers reach the point of nuclear fusion.

This will cause the star to expand becoming a red giant, which can, at its peak be “100 times larger in radius, and more than 1,000 times brighter in luminosity [than the sun] (Bennett, Donahue, Schneider, & Voit, 2007, p. 551).”

As the layers of hydrogen burn up, they will deposit helium into the shrinking core, which will continue to heat up. Once the helium core reaches 100 million Kelvin it will start nuclear fusion in the inner core as well.

Now that the star has both a helium nuclear active core and hydrogen nuclear active layers, eventually the star will undergo a helium flash, expanding the hydrogen layers, which will subsequently cool causing the star to produce less visible light.

Once the star has completely converted hydrogen to helium to carbon, nuclear fusion will cease, the star will cast off its outer layers in a brilliant show of lights called a planetary nebula, and all that will remain is a white dwarf. This white dwarf will continue to produce light until such time as it has cooled in the near distant future.

Both massive and not-so-massive stars have one thing in common: they create and recycle elements within the universe, and provide the building blocks that feed into the creation of existence of life on earth. They are a fundamental part of our circle of life.

Conclusion

In the end, we find that this massive beautiful universe as we can currently observe has played a significant role in the creation and maintenance of the very lives that we have been given. This very existence allows us to study and observe the universe, and should leave us within the fullness of wonder and awe.

However, without the capability to see beyond the stars and the universe as it exists, the scientific pursuit into origins ends at the moment of creation, and provides no further means to research these existential questions, and thus, within science alone, we are left in the state as if waking from “a bad dream (Jastrow, 1992, pp. 106,107).”

To build upon Einstein’s thoughts when he said: “the most incomprehensible thing about the universe is that it is comprehensible (BrainyQuote.com, 2008)”, I would leave you with the final question that remains unanswered and incomprehensible from a scientific perspective, and that question asks “why?”.

References

(2008). Retrieved December 08, 2008, from BrainyQuote.com: http://www.brainyquote.com/quotes/quotes/a/alberteins125369.html

Bennett, J., Donahue, M., Schneider, N., & Voit, M. (2007). The Cosmic Perspective 4th Ed. San Fransisco: Pearson Education, Inc.

Jastrow, R. (1992). God and the Astronomers. United States: Readers Library, Inc.

The comprehensible universe vs. the incomprehensible creator

“The most incomprehensible thing about the universe is that it is comprehensible.” —Albert Einstein, physicist, Nobel Prize Laureate.

This quote reminds me of a quote by Blasé Pascal: “Incomprehensible that God should exist; Incomprehensible that He should not.” (Pascal, 2008, p. 148)

While the universe appears incomprehensible; it is made up by the same substances and under the same physical laws that we exist within. Therefore, the universe itself is within our grasp, our reach, and our understanding.

And yet, in reference to God, I quote Him as saying:

“As the heavens are higher than the earth,

so are my ways higher than your ways

and my thoughts than your thoughts. ” – ISA 55.9 (NIV)

References

Pascal, B. (2008). Pensees and Other Writings (Oxford World’s Classics). New York: Oxford University Press Inc.

Evidences for the Big Bang?

The evidences for the Big Bang are a bit blotchy at best – that is to say; they are built upon assumptions that are built upon assumptions that are built upon assumptions (etc.) that are built upon laws that seem to correlate with the observed universe. If any one of those assumptions were to be incorrect (or even slightly flawed), the entire solution of the Big Bang could be irreducibly inconsistent with reality.

I am now coining this problem for the proof of the Big Bang as the Fibonacci disturbance. That is, if you have one number wrong in a Fibonacci sequence every subsequent number will be wrong. Additionally, as my Fibonacci disturbance will show, the further you get away from the origin of your calculation the further off your solution will be.

Considering the ‘Big Bang’ is billions of years in the past; and the sequence of events leading to our belief in the big bang is a bit anecdotal (e.g. we say that our theoretical evidences seem to indicate that the universe is made up of a certain composition, and then state that the Big Bang also seems to indicate that the universe should be made up of a certain similar composition, and we then use these two theoretical evidences to support the existence of each other).

Now, philosophically, theologically, and theoretically I don’t have a problem with the concept of the Big Bang. I think the universe must have been created, as it is not possible for it to exist infinitely in both time and space; but to-date, the theoretical evidences themselves do not push me to feel compelled to believe it. And yet, I would agree, that from a scientific perspective, to date, the Big Bang seems to be the reigning solution that seems to account (at least from a perceptual level) what the universe is like, comparatively to how we think it formed.

Some things the Big Bang really can’t account for on its own, is the apparent intentionality in creation, the fact that the universe seems so finely tuned for intelligent life to be created. The Big Bang can’t answer why the universe is so uniquely uniform, and it can’t answer the question of origins or purpose.

In the end, it’s at least a useful target to keep aiming at, as we shoot for the stars (so to speak) in trying to uncover the deeper meanings within creation and existence!

The Universe in 10^100 years!

If anyone is depressed in the bleak view that some astronomy course textbooks show as the final state of the universe in 10^100 years [that is everything will be ripped apart and peter out like the tail sparks of a firework that has burst], keep in mind that there are other theories that do not require such a slow spluttering dissolution. These alternate theories, at least to me, have been presented with more voracity than those within our textbook.

Frank Tipler (one of my favorite astrophysicist if you haven’t guessed by now) lays out proofs in his book The Physics of Christianity that while the universe appears flat, laws of physics like the Bekenstein bound principle and Unitarity require it to be closed and spatially compact (although so large that to any observer inside of the universe it would appear flat).

Our course book seems to reference this spherical concept on page 699 with the picture of the ant on the balloon, showing that to an ant, a huge balloon would appear to be flat, although the book still continues to assure us that the universe is flat. I believe it’s probably likely (?) that the book is leaving the state of the universe as flat by means of making our ‘introduction to astronomy’ just that: an introduction. The conclusion of a closed spatially compact universe becomes necessary for multiple reasons as Tipler documents in his book, but I won’t go into here.

While it is stated in both our course textbook and Tipler’s book, that the universe will continue to expand at an increasing rate based on current data, this continuous expansion, according to TIpler, won’t occur forever.

Tipler goes into more detail of the expansion of the universe by discussing the Higgs field which is believed to be a negative vacuum that would cause the universe to collapse in on itself excepting that it is not in its true vacuum state (the cosmological constant causing the expansion is only partially cancelled by the Higgs field).

While under normal circumstances, as our course book discusses, the gravitational pull of the universe (and all things therein) will decrease as astronomical objects are pulled further and further away from each other – that is if the universe continues to expand forever; Tipler believes that new forms of energy consumption will be developed (through baryon annihilation) and they will cause the Higgs to reach it’s state of absolute vacuum, and then cause the universe to collapse in on itself.

This ‘big crunch’ is not the end though; Tipler goes on to describe the ‘Omega Point’ and what it necessarily infers – although I’ll leave that information for your own discovery if you choose to read his book.

In the mean time, I’ll state the obvious by saying that I’m not a physicist or an astronomer by any means; so I don’t claim to have represented this information very accurately; but – I wanted to put this information in the forums just to say that if you are interested in this topic; Tipler’s book is a great resource to discuss some alternate views.

Christmas pictures…

Ok, so I’ve listened to Amanda for years complain about the fact that as a photographer, she gets really good pictures of everyone else’s family; but we never have good pictures, because I won’t pay for a photographer to take our pictures (because Amanda is a photographer), and she can’t do a good job at all trying to run back and forth from the camera, or even using the remote to push the button – because she can’t see how everyone is lined up and posed.

In my brilliance (?); I suggested that Amanda call another local photographer that she knows to see if he would like to swap photo-sessions at the studio. Sure enough, he and his wife were just discussing the same dilemma, and they thought it was a great idea.

I think it worked out really well – although I didn’t get a chance to see their family photos – Amanda is a really good portrait photographer, so I’m confident that they were able to get some good pictures (as long as her backdrop was able to fit the whole family in to her Christmas backdrop which wasn’t intended for more then 4-5 people at most). And I’m pleased with our pictures – except camera’s rarely are able to capture my good looking side (I could use the ontological argument to prove that it does actually exist outside of my mind.. but what’s the point)…

Anyway, here are the pictures…

Gas prices – are they here to stay?

If you are anything like me – you have been at least happy that gas prices have gone down – however; I think there is something a bit more sinister that is going on behind the scenes.

When gas prices go up, there is usually some big announcement in the news as to why the gas prices have gone up (some war in some country, some bad weather in some state, some grandmother sneezed in some grocery store, who knows..)… however, it’s interesting how silent the media has been on the gas prices falling – why?

I think it’s because they don’t want to draw to much attention to the fact that gas prices are falling… because, people will think about it, and they’ll realize there is something fishy going on… in fact, I don’t think the price drop is going to last very long.

You see, the fat cats that own the major gas cartel’s realize that their billions of dollars in revenue is also based on the strength of the economy, and they know that the economy is driven by rampant consumerism… When people have to spend so much on “necessities” like gas – they don’t spend money on other areas in the market – the things we want but don’t need – which are really the underpinnings of the financial kingdom.

And so – the cartel has realized that if they continue to squeeze the pockets of consumers over the holiday season, it’s going to mean even worse things for the economy; however, if they lighten the shackles of oil for the holiday shopping season; people will quickly forget how overbearing their gas & heating bills were just a few weeks before, and they will flock to the stores and buy more and spend more (I know I have).

And so, after the holiday season; the cartel is going to find some new reason to bring the oil and gas prices right back up (someone’s kid spilled a glass of milk in a restaurant in Bangor, Maine?)! The question is; how many people will curtail their shopping enough to be able to rebound with the gas and oil prices when they do go back up?

I’m watching them, I know their game, but who else is, who else does…

The Sun will burn out in the next 4.5 billion years – then what?

Frank Tipler in his book The Physics of Christianity has a lot to say about this topic. Tipler is writing this book from a standpoint of Science answering all questions, even questions of religion. Tipler believes that within the next couple hundred years humanity is going to discover new forms of energy through baryon annihilation, and that technology governed by Moore’s law and the Bekenstein Bound principle will allow mankind to reproduce (resurrect) life in a digital format, and travel through the stars looking for a new place to live. Through this baryon annihilation Tipler believes that the universe will begin to collapse once again, bringing the universe to its final state of what he refers to as the “Omega Point” (similar to the singularity point that begun the universe). Tipler makes these arguments both from science (unitarity) and philosophy (teleology) and religion (Judeo-Christian).

I, myself, am not so convinced of this scientific explanation, as I hold to a little more literal interpretation of the biblical accounts of the end of days. However, that being said, I can’t begin to even speculate what is going to happen within the next 4-5 billion years of human existence during the timeframe that the sun is expected to expand and then burn-out.

According to our Astronomy textbook, within the next 3-4 billion years the earth is going to suffer from an extreme greenhouse effect as the sun expands and slowly burns the last of its’ hydrogen fuel. The earth will be left scorched and unable to sustain anymore life.

We know from a scientific, philosophical and religious perspective, they all agree in one thing: that life and the universe had a beginning. It seems just as likely, scientifically, that life, at least, will have an end on this earth. As to what the end will be; I take personal comfort in seeing the great levels of intelligence and design that has been put into the universe that speaks to me of a purpose (teleology) of the creation as it exists today – so while I’m going to be dead billions of years before the sun actually burns out and destroys earth – I rest at night, comfortable in the fact that we’re in good hands!

Our new President

The new president elect of this country looks a bit sinister after he was elected – was there something lurking in the recesses of the shadows – or was he just caught at a bad time. One thing for sure is that things are going to change in this country – I can’t imagine they could get any worse – so perhaps our first African American President will have the opportunity to leave a great legacy! It’s too bad he had to be a democrat though! 😉

Before Election:

After election:

The sun over the mountains from my backyard…

This picture represents a lot of back-breaking hard labor as I’ve been working most of the summer to clear out just this single path. I will widen it in the following years, provided I’m still alive.

It provides spectacular views both in the morning and the evening!

Who did you vote for?

I think it’s a bit naive if one was to believe that the man sitting in the seat of President of the United States has such a big impact on what our country does from a law and policy prospective. The majority of the power is and remains in the hands of the upper and lower House; and those individuals are there as a result of the way the people in this country think and vote.

I personally think it’s foolish how much time and money our country spends on campaigning for presidency – if the citizens in our country could even spend the smallest fraction of effort focusing on some of the things that plague this country, rather than fighting and bickering about which talking head would be better for the country, if we could spend even a fraction of the campaign money on trying to turn this country around – that would be a long stride in where we need to be.

I was registered as an Independent until Clinton and his little affair (I use the term univocally) – and now I’m registered as a Republican. I am not voting for McCain, not because I want Obama as a president, but because I would like to see a chance to allow change, change that I don’t see happening the way things are currently going and have been going over the last 12 years.

But, whether you’re a liberal or conservative, republican or democrat, whatever change you’re looking for, no change is going to come about until the people themselves have changed.

The president doesn’t determine the state of this country – the people do. And we’ve made a huge mess of things.

Ideologically, Obama and I just don’t meet eye-to-eye (or anywhere in the vicinity of the face); but I couldn’t vote for another Republican either! I voted for Nader! 🙂

I find it very likely that Obama will win the presidency – quello che sarà! Our country has to rebound; it will rebound, with whoever is at the helm.

The good thing for democrats is that they can claim it was a Democrat president who did it – the good thing for everyone else, is it will happen either way!

[This is where I start to discuss Orwellian prophecy; but for the sake of brevity]