The string theory is a very interesting idea that propose another totally different way of thinking what made up our universe. Although this theory is very arguable because it can never be tested in our labs so that a lot of physicist do not like this theory, but it indeed gives a very unique prospective and interpretation about parallel universe and dimensions.
The theory proposes that everything in the universe is made of the tiny element called string. It is itself one dimension particle. String theory proposes a unique solution trying to figure out the ultimate equation of the universe, that equation that unifies all four major forces in the universe: gravity, strong nuclear force, weak nuclear force and electromagnetic. This is the equation that Einstein seemed for his whole life.
Before string theory, people think this equation does not exist because of the quantum physics. Modern quantum physics thinks that things happen in the quantum field can not be predicted. We can only predict the possibility of something happen in the quantum field. In other words, there are no equations related to quantum physics since everything is about probability.
Einstein believes that there must be an ultimate equation that explain everything from large scale to quantum physics. String theory provides one possible answer for seeking this equation. String theory proposes that every forces are generated because of specific particles. For example, the one that is responsible for gravity, also the special one, is called graviton. This is a theoretic particle that has never been found by human.
Other things that are very interesting about string theory is that it tries to explain the parallel universe by the idea of membrane. Basically our universe is like a membrane where there are a lot of other parallel universe. Only graviton can sometimes travel through membranes.
Extrasolar planets is one of the most interesting astronomical research topics. It can help us answer questions such as whether there are aliens, or is it possible for us to find another “Earth” to live on.
An extrasolar planet is defined as a planet that is outside of solar system. The history of extrasolar planet can be traced back to 1917, but the first confirmed detection of extrasolar planet happened in 1988. As of April 1st, 2019, we have found 4023 confirmed planets with in 3005 systems.
Because of the bias in detecting extrasolar system due to the mythology of transit photometry and Doppler spectroscopy, most of the planets we found are huge in size and close to the star in the system. By in theory, there should be about 1 Earth-like size planet in the habitable zone in 5 sun-like star’s system. This number is amazing considered that we have 200 billion stars just in Milky Way — that’s about 11 billion Earth-like planets! Are we the only special one?
One example of a likely Earth twin is Kepler-452b. It’s one of the most Earth-like exoplanet we have found so far. It lies at 1,400 light year away from us, and it’s about 60% larger than Earth, orbiting a sun-like star that is 10% bigger and 20% brighter. Kepler-452b’s orbital period is about 385 days, making it lying in the habitable zone. Kepler-452b is likely to process thick atmosphere, lots of water and volcanos. The planet and its sum have been around for about 6 billion years, and is there any life on Kepler-452b? We expect future researches can reveal us the answer.
The black hole is one of the most amazing and mysterious object in our universe. In 1916, Karl Schwarzschild first provided the solution to general relativity that characterize a black hole.
Black hole is the remnant of super massive star’s explosion, and it has such a strong gravitational pull that nothing can escape, not even particles and light (electromagnetic radiation). And this is why it gets the name “black hole”.
The model of black hole is supported by the theory of general relativity that a super massive object can deform the space-time to form a black hole and the boundary that nothing can escape is called event horizon. The movie “Interstellar” has a very famous part about the horizon event and falling into blackhole.
The black hole has three independent properties: mass, charge and angular momentum. The center of black hole, according to general relativity, is the singularity where the curvature of space-time is infinite.
Another interesting thing about black hole is called gravitational time dilation. It’s describing that if something is falling into black hole, as it’s closer to event horizon, the time will be slower according to general relativity. And it will take infinite amount of time to reach event horizon.
On February 11th 2016, LIGO announced the first detection of gravitational waves, which also represent the first observation of black hole merging.
The solar system is a planetary system consisted of star Sun, planets, comets and other objects orbiting around the Sun, and Earth is one of them. The major mass of solar system is from the Sun. The sun is a G2 main-sequence star at the center of solar system which contains about 99.86% of total mass in solar system. The sun generates its heat and light through nuclear fusion. It’s 4.6 billion years old as the rest of the solar system is, and it will continue to last for about 5 billion years.
The next thing in solar system are planets. Mercury is the planet that is closest to sun, followed by Venus, Earth, and Mars. These four planets are called terrestrial planets as they are rocky, small in size with little moons.
Between the terrestrial planets and Jovian planets is the asteroid belt. It’s a Circumstellar disc occupied by numerous asteroids between Mars and Jupiter.
Jupiter, Saturn, Uranus and Neptune are called Jovian planet which are gaseous, giant, with a lot of moons. Beyond Neptune, it’s the Kuiper belt which is also a Circumstellar disc but it’s much larger in size than asteroid belt — 20 times wider and 20 to 200 times more massive. It’s occupied by asteroids which are remnants from when the solar system formed.
The vast size of universe is so hard to picture in one image because its size is unbelievably enormous compared to human and Earth. Our planet Earth has the size around 12,742 km diameter. And the nearest object to us is moon which is approximately 384,400 km from us. The number is already huge in our sense. But the size of our solar system is about 287.46 billion km and the Milky Way is around 950,000,000,000,000,000 km wide, or 105,700 light-years as the number is too large to use km as unit. It will take light 105,700 years to travel across the whole Milky Way! Consider that human has been around for only 200,000 years. And the size of Milky Way is not unique. In fact, some large galaxy can have size way bigger than Milky Way. IC1101, the largest galaxy has been found, is 6 million light-years in diameter.
Amazingly, astronomers estimated that there are around two trillion galaxies in the observable universe which is 92 billion light-years wide. So the only way to picture such enormous size in an image is to use logarithmic scales. As the picture above shows, each chunk of the circle represent a field of view several orders of magnitude larger than the one before it. So the whole observable universe is now in a single image.
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