The theory that the universe is made up of 75% dark matter and 25% dark energy sounds fantastic. But, in reality, scientists don’t know much about the mass or characteristics of this mysterious substance. This article will discuss what we do know about Dark Matter and why it may not be so fantastic after all. It will also speak to the uncertainties that surround how this material functions. Please join Youtubestorm if you are interested in gaining more traffic through your Youtube video or any social media. While many people today take the dark matter for granted because it is everywhere, scientists still argue over whether or not. Dark Matter is really out there and how these particles interact with the physical world around them.
Table of Contents
What is Dark Matter?
Dark matter is believed to be composed mainly of de-orbitinized gas and stars.Â
We know that normal matter continues to vibrate in a regular way, like all other atomic particles.Â
How could the presence of dark matter particles affect our health?Â
Conclusion
What is Dark Matter?
Dark matter, also known as ‘hypothesized space matter’ or ‘metallic matter’, is said to make up about 25 % of the space-time continuum. Although astronomers have detected it through observing the effects it has on various space objects, they still do not know what it is. Though nearly invisible to the naked eye, it plays a crucial role in our understanding of space-related processes and physics. Let us study it more carefully.
Dark matter is believed to be composed mainly of de-orbitinized gas and stars.Â
It also contains normal low-density cloud particles. Though it cannot be seen with the naked eye, it is very faint. Hence, there is strong indirect evidence for its presence in cosmological models based on galaxy formation theories. galaxy evolution is associated with dark matter, with the growth of gas clouds being powered by it.
Since the early 1990s, theories and predictions by several groups of experts in the field of astronomy suggest that there are many dark matter particles which make up about 80 % of the volume of space-time. These models of galaxy formation and structure evolution suggest that many compact clusters of galaxies are covered with large amounts of dark matter. In fact, many of these clusters could be made up of extremely heavy dark matter.
We know that normal matter continues to vibrate in a regular way, like all other atomic particles.Â
However, dark matter seems to have a different nature. It generally responds to an external force in a unique way. Its vibrations produce radiation that can be seen with the right kind of instruments. The research into the nature of dark matter started with the launch of the Planck satellite in 1998.
With the help of this satellite, scientists got a clear idea about what kinds of dark matter particles exist. It was found that clusters of very small dust grains or voids can make up about 25 % of the total volume of the universe. This means that there are many such voids in the Milky Way Galaxy. Since our solar system is nothing more than a small galaxy, similar structures might also be present in other relatively small galaxies. Hence, scientists feel that the presence of dark matter particles makes stars like our own possib
How could the presence of dark matter particles affect our health?Â
Theories suggest that they could cause a variety of problems. For example, some theories suggest that dark matter could be making our planets closer and colder by resulting in less radiation reaching the planet. Also, dark matter could be blocking infrared radiation from reaching us, which could explain why we haven’t noticed much from outer space so far.
Although dark matter particles may not pose any direct threat to human health, they can still mess with our brain in a big way. For instance, stress could affect a person’s health by making their minds work harder, and this could make them lose concentration. In addition, a tired brain is not as sharp, and could cause you to make mistakes that can cost you your job. As it turns out, dark matter could have a lot to teach us about ourselves, and its effects can only be limited by our imagination.
Conclusion
Now that you understand why scientists think that dark matter might exist, what can you do to find out if there are dark matter particles? The answer is simple-you need a powerful microscope! Luckily, there are many brands on the market today that have powerful microscopes that will allow you to see dark matter in its entirety. So start looking around for a great microscope today, and enjoy the wonders of science in the process.