- 3400 - UNIVERSE - in ten easy steps? The broadly accepted theory for the origin and evolution of our universe is the Big Bang model, which states that the universe began as an incredibly hot, dense point roughly 13.7 billion years ago. So, how did the universe go from being fractions of an inch across to what it is today?
--------------------- 3400 - UNIVERSE - in ten easy steps?
- Here is a breakdown of the Big Bang to now in 10 easy-to-understand steps. It took quite a bit more than seven days to create the universe as we know it today. Translate “days” to looking at the mysteries of the heavens in our “eight-part series“, we call “days“: God only knows how this all started:
-------------------- Day 1: Our version of how it all started. The Big Bang was not an explosion in space. Instead, it was the appearance of space everywhere in the universe. According to the Big Bang theory, the universe was born as a very hot, very dense, single point in space.
-
- Cosmologists are unsure what happened before this moment. From observations of the cosmic microwave background, which contains the afterglow of light and radiation left over from the Big Bang. This relic of the Big Bang pervades the universe and is visible to microwave detectors, which allows scientists to piece together clues of the early universe.
-
- In 2001, NASA launched the Wilkinson Microwave Anisotropy Probe (WMAP) mission to study the conditions as they existed in the early universe by measuring radiation from the cosmic microwave background. Among other discoveries, WMAP was able to determine the age of the universe at 13.7 billion years old.
-
----------------- Day 2: The Universe's first growth spurt. When the universe was very young, something like a hundredth of a billionth of a trillionth of a trillionth of a second, it underwent an incredible growth spurt. During this burst of expansion, which is known as “inflation“, the universe grew exponentially and doubled in size at least 90 times.
-
- The universe was expanding, and as it expanded, it got cooler and less dense. The universe cooled and matter formed.
-
-------------------- Day 3: The universe was too hot to shine light. Chemical elements were created within the first three minutes of the universe's formation. As the universe expanded, temperatures cooled and protons and neutrons collided to make deuterium, which is an isotope of hydrogen. Much of this deuterium combined to make helium.
-
- For the first 380,000 years after the Big Bang the intense heat from the universe's creation made it essentially too hot for light to shine. Atoms crashed together with enough force to break up into a dense, opaque plasma of protons, neutrons and electrons that scattered light like fog.
-
--------------------- Day 4: Let there be light. About 380,000 years after the Big Bang, matter cooled enough for electrons to combine with nuclei to form neutral atoms. This phase is known as "recombination," and the absorption of free electrons caused the universe to become transparent. The light that was unleashed at this time is detectable today in the form of radiation from the cosmic microwave background.
-
- The era of recombination was followed by a period of darkness before stars and other bright objects were formed.
-
------------------------ Day 5: Emerging from the Cosmic Dark Ages, 400,000,000 years after the Big Bang, the universe began to come out of its dark ages. This period in the universe's evolution is called the age of “re-ionization“.
-
- This dynamic phase was thought to have lasted more than a half-billion years, but based on new observations, scientists think re-ionization may have occurred more rapidly than previously thought.
-
- During this time, clumps of gas collapsed enough to form the very first stars and galaxies. The emitted ultraviolet light from these energetic events cleared out and destroyed most of the surrounding neutral hydrogen gas. The process of re-ionization, plus the clearing of foggy hydrogen gas, caused the universe to become transparent to ultraviolet light for the first time.
-
----------------------- Day 6: Astronomers searched the universe looking for the most far-flung and oldest galaxies to help them understand the properties of the early universe. Similarly, by studying the cosmic microwave background, astronomers can work backwards to piece together the events that came before.
-
- Data from “WMAP” and the Cosmic Background Explorer” COBE“, which launched in 1989, and missions still in operation, like the Hubble Space Telescope, which launched in 1990, all help scientists try to solve the most enduring mysteries and answer the most debated questions in cosmology.
-
--------------------- Day 7: Birth of our solar system is estimated to have been born a little after 9 billion years after the Big Bang, making it about 4.6 billion years old. According to current estimates, the sun is one of more than 100 billion stars in our Milky Way galaxy alone, and orbits roughly 25,000 light-years from the galactic core.
-
- The sun and the rest of our solar system was formed from a giant, rotating cloud of gas and dust known as the solar nebula. As gravity caused the nebula to collapse, it spun faster and flattened into a disk. During this phase, most of the material was pulled toward the center to form the sun.
-
------------------------- Day 8: Colossal Cosmic Collision reveals mysterious Dark Matter. In the 1960s and 1970s, astronomers began thinking that there might be more mass in the universe than what is visible. Vera Rubin, an astronomer at the Carnegie Institution of Washington, observed the speeds of stars at various locations in galaxies.
-
- Basic Newtonian physics implies that stars on the outskirts of a galaxy would orbit more slowly than stars at the center, but Rubin found no difference in the velocities of stars farther out. In fact, Vera found that all stars in a galaxy seem to circle the center at more or less the same speed.
-
- This mysterious and invisible mass became known as “dark matter“. Dark matter is inferred because of the gravitational pull it exerts on regular matter. One hypothesis states the mysterious stuff could be formed by exotic particles that don't interact with light or regular matter, which is why it has been so difficult to detect.
-
- Dark matter makes up 23 percent of the universe. In comparison, only 4 percent of the universe is composed of regular matter, which encompasses stars, planets and people. You don’t amount to much universally speaking.
-
------------------------ Day 9: The Universe is expanding and accelerating in its expansion. In the 1920s, astronomer Edwin Hubble made a revolutionary discovery about the universe. Using a newly constructed telescope at the Mount Wilson Observatory in Los Angeles, Hubble observed that the universe is not static, but rather is expanding.
-
- Decades later, in 1998, the prolific space telescope named after the famous astronomer, the Hubble Space Telescope, studied very distant supernovas and found that, a long time ago, the universe was expanding more slowly than it is today.
-
- This discovery was surprising because it was long thought that the gravity of matter in the universe would slow its expansion, or even cause it to contract. Dark energy is thought to be the strange force that is pulling the cosmos apart at ever-increasing speeds, but it remains undetected and shrouded in mystery.
-
- The existence of this elusive energy, which is thought to make up 73 percent of the universe, is one of the most hotly debated topics in cosmology.
-
-------------------- Day 10: While much has been discovered about the creation and evolution of the universe, there are enduring questions that remain unanswered. Dark matter and dark energy remain two of the biggest mysteries, but cosmologists continue to probe the universe in hopes of better understanding how it all began.
-
- Today is Sunday. A day of rest. I’m done for today. It is your turn.
-
January 9, 2022 UNIVERSE - in ten easy steps? 3400
----------------------------------------------------------------------------------------
----- Comments appreciated and Pass it on to whomever is interested. ---
--- Some reviews are at: -------------- http://jdetrick.blogspot.com -----
-- email feedback, corrections, request for copies or Index of all reviews
--- to: ------ jamesdetrick@comcast.net ------ “Jim Detrick” -----------
--------------------- --- Sunday, January 9, 2022 ---------------------------
No comments:
Post a Comment