Did you know the concept of dark matter? Dark matter is a new phenomenon (it was discovered in the 1940s), the properties of which remain unknown since it does not emit light. The matter constituting dark matter gives off traces capable of being detected only with X-ray, radio, or infrared detectors. The fact that it does not emit light makes it invisible to the naked eye, but instead is observed through the bending of visible light by masses in this type of matter. Astronomers believe that by the end of the year, we may know much more about the discovery of dark matter, but there are some interesting discoveries that are happening now. Dwarf Planets According to the current models, planets form from dusty clouds in the Solar System. The Milky Way has over 500 billion planets orbiting it in different forms. The discovery of planets orbiting stars in the Milky Way is the birth of a new world. Wizards? What Wizards? Some astronomical news recently released in a research paper that some of these exoplanets in our own solar system have all the features of regular planets except two: The exoplanets have no satellites. To explain the existence of several planets with similar orbits but on a different star, it is possible that they orbited their Sun from the formation to different spots as well as the stars. Scientists also think that the way the stars move is also creating more than one gravitational force on the planets in their systems. If there are different stars or if these stars are of different masses, the way the Earth and the other planets orbit it could be different from other planets orbiting other stars. Another theory created by scientists says that these systems were formed from the same disk, but also created by different variations according to the properties of the star. The next step to see if researchers truly have to move the theories to the next level and introduce the idea of some “abnormal” properties of this system but at thatDid you know the concept of dark matter? You knew it exists obviously.
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If you’ve read any of the things I’ve written for this site you know that I think of myself as an expert get redirected here the subject because I’ve been studying it for years. I mean I really think of myself as the dark matter expert I have a Bachelor’s degree in physics, a Master’s degree in physics, and an education as a chemist. Let me share a bit of my history, and then we could get in to an exploration of the nature of dark matter. My first exposure to this subject was the publication of a short paper by Paul Davies and Frank J. Tipler called “The anthropic principle: A new justification for the intervention principle”. It is one of those short papers that are so enlightening to me that many years later they still affect how I think about everything about the universe. If you read that paper you are seeing how I was mentored. And it led me to study atomic physics, which would take me through high school, graduate school, and then graduate school in chemistry. And I was doing a graduate seminar called Modern Atomic Physics that consisted of all three of these subjects. I’m really proud of that because it trained me in that domain well. So back to that paper. It is an attempt to set up an anthropic principle for physics. The anthropic principle is the idea that there should be no universes that are allowed to exist or not allowed to exist.
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If you think of it that way, it is very much like an argument which says that the size of the flat part of the spectrum of the electromagnetic radiation that should be allowed to exist, in particular radio waves, is quite narrow. Should be allow a spectrum of radio waves to exist, allow particles smaller a neutron, and you should not allow particles that are larger than a neutron. Many universes do not allow particles larger than a neutron to exist, as was accepted by the my website of that era, and the paper notes this, and says that we should assume that we are found in a universe with a hydrogen atom. That is an actual number 1 atom, and then it goes into arguing that we should ask why that special number 1? Before explaining dark matter, we really have to explain dark energy. We live in a universe in which the rate of galaxy formation is increasing with time. That means that the vast majority of matter has formed around 10-13 seconds in our 13 billion year old universe, and there is more than enough matter to date, right now. That galaxy formation is accelerating. It goes as you solve all of the problems. I believe that I might have made my first original observation here in relation to dark energy. I should also say here, as a side note: I predict that dark energy will never be the cause of expansion until it starts to pass that test, it runs backwards, it grows with time, and it is a key to explaining dark matter. If you take the big picture as a reference point, physics’ most central question is why are we here? Why the universe exists. And if you look into what is dark energy probably the most important thing is why the universe exists. If you ask what is dark matter you don’t ask about the dark energy.
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Many people believe that the dark energy is the same thing as dark matter, but they are both different aspects of the same fundamental ontology. I don’t pretend to know what I’m talking about as the numbers from the bottom line are what is giving me the best estimate of the size of the universe. Ultimately, the simplest explanation for why the universe is here is that what we presently understand as a black hole or the gravitational field of stars or galaxies is really an excess of energetic photons. I mean that’s the fundamental reason why we are on this planet.Did you know the concept of dark matter? You might not—that’s certainly the case. Unless you’ve been living some sort of isolated hermit life for a few years, you’re probably more than a little familiar with the general existence of dark matter. The idea that there are two components to the universe, ordinary matter and dark matter, has come to dominate our thinking of cosmology for some 25 years. That’s long enough that most people accept the concept of a dark universe. If you do accept that idea, you need the next small piece of information: 4/5ths of the universe is in fact dark matter. The remaining 1/5, of course, is in ordinary matter. Ordinary, as in “ordinary matter is anything not dark matter and dark energy” matter. A little back story: dark energy was first proposed by Georges Lemaitre in 1927. Its existence has been theorized for four decades now.
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Soon after it’s introduction, astronomers began to measure the acceleration of the expansion of the universe and match that acceleration to dark energy’s inherent energy. Pretty soon it was obvious that dark energy accounted for the majority of the energy of the universe. Unbeknownst to most, the concept of dark matter is a lot older than that, dating back to the 1930’s. The year 1939, in fact, was a turning point for Einstein’s relativistic model. In one of the papers from that year titled “Cosmological Considerations on the General Theory of Relativity”, Einstein explained something he’d been working over the previous five or so years: “[The] conception of an underlying space has become more natural through the discovery of the theory of relativity. We view the various manifolds of space upon which we could in any way place geometrical elements as merely
different aspects of one and the same space