The Interstellar Medium and Starbirth

The interstellar space looks empty, but in reality it is filled with the so-called interstellar medium, about 99% of the interstellar medium is gas and the remaining 1% is dust. Interstellar intermediate clouds are called nebulae and originate from Latin clouds (What is Interstellar Intermediate ?, nd). A gravitational attraction brings together a part of the interstellar medium and a galaxy is formed (Villanueva, 2010). There are several types of nebulae, how do they affect star light (what is interstellar medium ?, nd).

Oh, yes, it is absolute. It appears in the interstellar medium, Voyager 1, exploring the boundary of the solar area, the solar wind is connected to the interstellar medium, and the interstellar medium is the medium between the stars. This is the first time we went there. We measure charged particles, cosmic rays, magnetic fields, electric fields, waves, radio waves, etc. This tells us how interstellar matter interacts with our solar system.

The interstellar space is the physical space in the galaxy and exceeds the influence of each star on the circled plasma. The content of the interstellar space is called interstellar medium. Approximately 70% of the interstellar intermediate mass consists of a single hydrogen atom and the rest mostly consists of helium atoms. It is rich in trace amounts of heavy atoms formed by nuclear synthesis of stars. These atoms are injected into the interstellar medium when an evolving star begins to fall off from its surroundings, such as by a stellar wind or during the formation of a planetary nebula. The catastrophic explosion of a supernova produces an expanding shockwave consisting of a jet of material that further enriches the medium. The density of substances in the interstellar medium can vary greatly. There are 106 particles per cubic meter on average, but cold molecular clouds can hold 108-1012 particles per cubic meter.

As the stars move fast enough, those planets will have an arcuate effect when they collide with the interstellar medium. For decades people think that the sun has an influence of a bow and arrow. In 2012, the data from the Interstellar Boundary Resource Manager (IBEX) and the NASA Voyager Detector showed that the sun's arcuate influence does not exist. Instead, these authors believe that the subsonic bow wave defines the transition from solar wind to interstellar medium. Bow Impact is the third heavenly boundary after the end of Impact and Astropause (it is called sunlight in the solar system)