On August 12, 2018, the Parker Solar Probe left our blue home planet, Earth, on a NASA spacecraft headed for the Sun to reveal more of our sun's mysteries!
During the mission, the unmanned spacecraft will primarily examine the outer atmosphere of our home planet, known as the corona. So the overall goals include studying the energy flow in the corona, accelerating the solar wind, analyzing plasma in the sun's magnetic field, and studying the background mechanisms that generate this phenomenon to accelerate and transport energy-rich particles. The Parker Solar Probe did what no other spacecraft could. It went head-to-head with the sun 39bet-xsmb-xổ số tây ninh-xổ số binh phước-xổ số binh dương-xổ số đồng nai.
The Parker Solar Probe has now crossed the ominous boundary with the sun's atmosphere known as the Alpha critical plane, which is the region where plasmonic material still exists, connected to our central host star. The constant flow of plasma from the sun is in turn called the solar wind. In a second, the sun ejects about a million tons of plasma, a stream of charged particles that sits at the ominous boundary between the corona and the solar wind and is still the subject of research.
However, parker solar probe during a mission to earth transmission data show that it has successfully crossed the alpha critical level, and the corona plasma contact associated with the sun still, this is almost for us can become intimate contact with the ground of the observer and the sun, but only in the case of a total solar eclipse, the spacecraft to check the magnetic field and particle. There is no doubt that touching the sun marks an absolute milestone in modern space exploration. On the one hand, the remarkable achievements of the Parker Solar Probe will help us learn more about the Sun and its impact on surrounding systems, and in addition, the information gathered can be used to learn more about stars elsewhere in the universe.
The Parker Solar probe proved it had a knack for breaking records just a few months after its launch. At the time, the NASA probe had come within 26.5 million miles of our host star. So the record set by Helios II in 1976 is history. For now, however, the spacecraft is history and it's already very close to the sun. It is currently in an elliptical orbit around our home star at a distance of about 4.9 million miles. It's clear that the Parker Solar Probe is moving and doing research in an area that can be described as extreme.
To put it gently, the probe will, in fact, pass through material with temperatures exceeding 34.7 million degrees Celsius during its journey. To ward off these anomalous conditions, the 7-ton spacecraft is outfitted with a 4.7-inch-thick carbon armor that will act as a heat shield during further missions planned for 2025. NASA employees wanted to first figure out why the corona is so much hotter than the sun's surface.
The data the Parker Solar Probe has collected about the interior of the sun's atmosphere has given us a better understanding of our close home planet. The probe has taken numerous pictures of the sun during its journey to the Sun, including images of the inner atmosphere taken from 16 million miles away. We were very impressed by these groundbreaking photos. We can identify in the photos what are called coronal streamers, or in other words, bright structures that form as magnetic activity increases. The bright spot we see in the image is Mercury. However, the dark spots do not have a galactic origin and are the result of background correction.
In 2025, the Parker Solar Probe will give us even more amazing results!