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The solar wind is observed to exist in two fundamental states, termed the slow solar wind and the fast solar wind, though their differences extend well beyond their speeds. In near-Earth space, the slow solar wind is observed to have a velocity of 300–500 km/s , a temperature of ~ 100 kilokelvin and a composition that is a close match to the ...
For part of its red-giant life, the Sun will have a strong stellar wind that will carry away around 33% of its mass. [118] [123] [124] During these times, it is possible that Saturn's moon Titan could achieve surface temperatures necessary to support life. [125] [126] As the Sun expands, it will swallow the planets Mercury and Venus. [127]
The wind attempts to strip the traveler of his cloak, illustrated by Milo Winter in a 1919 Aesop anthology The Sun persuades the traveler to take off his cloak. The story concerns a competition between the North wind and the Sun to decide which is the stronger.
The flares and CMEs of the August 1972 solar storms were similar to the Carrington event in size and magnitude; however, unlike the 1859 storms, they did not cause an extreme geomagnetic storm. The March 1989 geomagnetic storm knocked out power across large sections of Quebec , while the 2003 Halloween solar storms registered the most powerful ...
The solar wind is a ubiquitous feature of our solar system. But precisely how the sun generates the solar wind has remained unclear. New observations by the Solar Orbiter spacecraft may provide an ...
The Sun's stellar-wind bubble, the heliosphere, a region of space dominated by the Sun, has its boundary at the termination shock. Based on the Sun's peculiar motion relative to the local standard of rest, this boundary is roughly 80–100 AU from the Sun upwind of the interstellar medium and roughly 200 AU from the Sun downwind. [225]
In this framework, the early Sun underwent an extended period of higher solar wind output. Based on exoplanetary data, this caused a mass loss from the Sun of 5−6 percent over its lifetime, [27] resulting in a more consistent level of solar luminosity (as the early Sun had more mass, resulting in more energy output than was predicted).
The Sun's wind is called the solar wind. These winds consist mostly of high-energy electrons and protons (about 1 keV) that are able to escape the star's gravity because of the high temperature of the corona. Stellar winds from main-sequence stars do not strongly influence the evolution of lower-mass stars such as the Sun.