Friday, March 14, 2014

Space Matters, Why?

Why does studying space matter? No pun intended. You're probably wondering why you chose this particular blog to read. That very thought is the essence of the meaning behind what sets human being's apart from any other living creature. We question existence. We wonder why. At some point or another, each one of us looks up at the billions of stars turning in deep space and we ask ourselves these questions. Space is the origin of all life. The moments that make up the entirety of humanity exist because of the universe and its past, present, and future.

http://www.ufstarfleet.org/wiki/images/b/b6/Blue-Planet-Earth.jpgThe study of space matters because it has influenced generations and generations of our species to become inspired by its mysteries and wonder. It has inspired people of every tribe, nation, color, gender and age for the last 200,000 years to inquire questions of philosophy, religion, technology, education, and art. Within each one of these lies the seeds that have grown to become existentialism, intellectualism, faith, morals, exploration in science and mathematics, and predictions. It's lead to inspiring the future generation, our youth and their treasured ideas. Man landed on the moon because one night, a boy looked up at the sky and said to himself "I want to be right there looking up at where I am here" as he pointed to the glass sphere orbiting his planet. 

"To wonder and dream what lies beyond our home galaxy, past nebula, black holes, dark matter, other galaxies, and finally, the entire universe will always remain to be a beautiful element of simply being human. The desire to know the unknown will continue its legacy through each one of us every time we step out into the night and raise our eyes to search the stars that lie deep within the velvet oblivion." - Velvet Oblivion
What are we living for if we never strive to pursue our dreams day after day. Humanity obtains bits and pieces of truth that make up the grand design we call life every time we question our "beginning." Space research matters so incredibly much because it prompts us to ask the most basic questions about the beginning of time, the end of time, the reasons why we're here, and much more. As said before these questions can be answered through a number of ways, science, religion, philosophy, art, etc. But space has also taught us that no matter how far we look, how much we know, and how much we can hypothesize about what's really out there, we might never uncover the "unknown" and life's greatest mysteries. It's humbling to know that we're a mere thread woven into the web of existence. Even within that statement branches millions of questions. 

In short, if we don't question space, many answers to the meaning of life would be lost in a multitude of ways. Never limit your imagination to the boundaries of our atmosphere, never stop the wonder you have for unexplainable questions, never give up on something that requires you to have the strongest of faith -- because if you do, we will no longer be a thread woven into life's grand design, we will be just another galaxy hanging in the cold depths of space stretching away from all that is known to mankind. We would lose the very essence of our beings. 

Velvet Oblivion - Part 5

 Velvet Oblivion 

Part 5

In Stephen Hawking's book A Brief History of Time, he begins his explanation of our universe's future with three simple graphs. Including original models done by Alexander Friedmann, a Russian physicist and mathematician. I began reading this book during fall term and I have never come across one hundred and ninety pages of more dense and mind blowing material in my life besides maybe the book of psalms.

"The universe is not infinite in space,
but neither does space have any boundary."

The three figures Stephen Hawking continues to explain are derived from Friedmann's research and predictions. Hawking's first graph demonstrates what I learned previously to be the "big crunch" in which galaxies continue to drift farther apart from one another since the big bang and beginning of time until they slowly begin to contract until they end up colliding and compressing into zero distance from one another, just as they had begun. His second graph addresses the possibility of the universe "continuing forever" where "the universe is expanding only just fast enough to avoid re-collapse." In his third graph, he explains the theory of the "big chill" where galaxies continue to move further from one another until they disappear from sight, left alone in space. It's known as the big chill because as time lapses and becomes father from the event of the big bang, the average temperature of the universe will drop until life in all galaxies would cease to exist. A lot like what Mark Shwartz analyzes in past predictions of what scientists thought the future of the universe would be.
 

From these three very different theories, Hawking makes a very interesting conclusion stating that "the universe is not infinite in space, but neither does space have any boundary." Now that he recognized the universe is not infinite there for potentially expanding, he directs his attention towards the facts to prove his statement. To obtain the answer "we need to know the present rate of expansion of the universe and its present average density." After calculating average density by adding up the mass of every star in our galaxy plus dark matter and the present rate of expansion, which he states to be between 5 and 10 percent every thousand million years, Hawking comes to the conclusion that the universe will probably be expanding forever. If it does contract, then it probably wont for another ten thousand years indicating that we are currently in the middle of our universe's life cycle.
  
http://cdn.zmescience.com/wp-content/uploads/2013/02/dark-matter.jpgI always find Stephen Hawking's explanations so satisfying to read because he's able to back up his thinking process with a number of provable calculations from an immense amount of history. What I learned from him was something so incredibly key to the meaning of my research. No matter how much I try and narrow these theories down to predict the existence of the entire universe, I must accept that humanity will never, ever know the truth. The unknown is inescapable, all we can measure, count, hypothesize, and relate to exists here on earth and is limited to the farthest galaxy we can see, which happens to be 13.3 billion light years away. I plan to continue space research throughout my lifetime and someday I might actually come up with a theory of my own to the question of what lies beyond the universe.