An Introductory Overview To Astronomy And The Universe
Astronomy is the scientific study of celestial objects, space and the physical Universe. Astronomers can study stars, planets, galaxies and other space phenomena to learn about the formation of the Universe. People have always been interested in astronomy. However, it was not until the invention of the telescope, that people could really begin to understand what was out there in outer space. The first person to use a telescope to observe the night sky was Galileo Galilei.
Galileo discovered many things, including the Moons of Jupiter and the phases of Venus. He also introduced the concept of heliocentrism, which stated that the Earth revolves around the Sun. This contradicted the teachings of the church, which said the Earth was the stationary center of the Universe. The church officials charged Galileo with heresy and sentenced him to house arrest for stating this controversial theory.
In the 1600's, people began to use telescopes to study and record what they could see in the night sky. By the 1700's, people began to create detailed maps of the stars and constellations. As telescopes and other instruments became more advanced, astronomers began to learn more and more about what was out there in the great beyond.
Many discoveries have been made and many questions answered.
What Is Space?
Space is all that exists. It is an invisible substance that surrounds everything that exists. Space is not a vacuum. It is a thin soup of gas. Stars and galaxies create the pressure that pushes it outwards, preventing the universe from collapsing in on itself. Space is defined as the boundless three-dimensional extent in which objects and phenomena exist, including the air, other planets, stars and galaxies. Space does not have an outer limit. It is infinite in every direction.
How The Universe Came To Be And What Its Importance To Us Humans Here On Earth?
The Universe began with a Big Bang. This is the generally accepted theory of how the Universe came into existence, though no one is quite sure what caused the Big Bang. Theoretical Physics has attempted to explain it, but so far no one has come up with a definitive answer.
Many things exist, that require energy and can't exist without it. The most obvious one is the Sun. The Sun provides the energy for all life on Earth. Without the Sun, life would not exist.
Life also requires food, which is derived from the products of photosynthesis, which in turn requires light. Photosynthesis only works when there is light. Without the Sun, there is no light and therefore no life.
The Earth itself also requires a constant temperature. If the planet is too cold, life cannot exist. If the planet is too hot, life cannot exist. The amount of light received on a planet directly affects life forms, that can only exist in certain ranges of light. The Universe itself requires energy to exist. Without the energy of the Big Bang, there would be no stars, galaxies, planets, or life in general.
Life has evolved here on Earth to require these things, but what if life evolved elsewhere in the Universe? What if the light, temperature and energy requirements are different? Would the forms of life be different? Who knows what other requirements might be out there? There might be forms of life that cannot exist without a constant stream of energy.
What Are The Stars For?
Stars are massive spherical masses of plasma, that burn through fuel at a tremendous rate. They are the most common form of energy in the visible Universe. Stars provide the majority of the energy required for interstellar travel.
Stars in the Milky Way Galaxy are typically massive, with mass between 8 and 120 times the mass of the Sun. A typical star has a surface temperature of 7,240 Kelvin, hot enough to emit vast amounts of light, and hot enough to be a source of energy for chemical reactions.
Any large mass of matter, whether it be a planet, a star, or a collection of atoms, will have a gravitational pull on nearby objects and emit waves of energy. These waves can be used to transmit signals and this is how radio waves, light waves and other types of waves are formed.
How Do Astronomers Measure Distance From Earth To Other Planets And Stars?
Measuring distance is a very precise art. It is one of the areas of science that rely on mathematics and geometry. There are many ways that astronomers measure distance, each with their own advantages and disadvantages.
The most basic way is by angular measurement. Astronomers measure angles and use the results to calculate how far away a celestial object is. In astronomy, angles are often used to determine distance and this is how the word 'altitude' is formed.
Another way is by the use of parallax. Parallax is the apparent shifting of an object in our view due to the movement of the observer. This is most commonly used to determine the distance to nearby stars.
A more mathematical way is by the use of light-years. Light-years are the basic unit of distance in astronomy. The distance between the Earth and the Sun is 8 light-minutes. It means the light travels with the speed of light, which is approximately 300,000 KM/s. Most stars are much farther away than the Sun, so a light-year is the ideal unit of distance.
How Does An Astronomer Use A Telescope To Explore The Universe?
Using a telescope is one of the most popular ways astronomy is done. Telescopes make visible the otherwise invisible. They allow astronomers to see farther into the cosmos, than is possible without the aid of optics.
There are two types of telescopes used by astronomers: optical and non-optical.
Optical telescopes use lenses or mirrors to collect and focus light, that is then used to form an image of a celestial object. The more powerful the telescope, the larger the aperture and the more light it can collect and focus. This allows astronomers to see things, that are otherwise invisible.
Non-optical telescopes do not use lenses or mirrors. Instead, they use ionization to collect and focus light. They require much more power than optical telescopes, but their use is not restricted by the element of light. They can reveal things, that are invisible to the human eye.
Both types of telescopes allow astronomers to examine the structure of celestial objects, but they do so very differently.
Will The Universe Ever Stop Expanding?
The universe is vast and immense. There is more matter, that exists in the observable Universe, than stars in the Milky Way Galaxy. There might not be enough matter in the entire Universe to form a single star, let alone planets. The amount of matter that exists on Earth is only a small fraction of what is in the entire Universe.
The Universe is not static. Matter is constantly moving and it is a very large and unruly crowd. Matter comes in many different forms: planets, stars, galaxies, black holes and dark energy. Dark energy is the source of the expansion of the Universe and it causes galaxies to accelerate away from each other. Dark energy is also responsible for the acceleration of the Universe at large scales, which is why the Universe appears to be the same in every direction, despite the fact that matter is not evenly distributed.
Because of dark energy, the Universe will continue to expand at an ever-increasing rate, until such time as a significant event occurs to counterbalance it. Some researchers believe, that the Universe will one day enter an event known as the 'big rip' where rip is the contraction of all matter and energy. When this happens, all distances will increase (accelerate) by a factor of ten. The entire universe will be smaller, denser, colder, and more distant than it is now.
Thank you for reading.
One day I saw something in a documentary that caught my attention. Life on earth could be given for extremely millimeter reasons. Everything went exactly as it should. Even a slight deviation from the land, that is, a little more than it already has, is catastrophic.