Earth may owe its birth to a solar eruption

In summary, according to Ken Croswell, the formation of Earth may have been due to a hyperactive young sun, which also explains the small size of Mars. This new theory challenges the previous explanation that attributed Mars' size to the influence of Jupiter. The new theory suggests that the lack of heat from the solar flare-up prevented dust grains from sticking together, resulting in a smaller planet.
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Earth may have been born in a huge flare-up of the young sun

by Ken Croswell

It’s not easy to make Earth. Most of the explanations for how our planet formed have troubling problems. But if a new idea is right, we can thank a hyperactive young sun for Earth’s existence, plus solve a long-standing mystery about Mars.

Read more at New Scientist .
 
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The explanation for Mars sounds odd. Sticking together is only relevant at sizes of at most a few kilometers (and most important before the http://www.mpia.de/~dullemon/group/overview.php), afterwards gravity takes over. Mars is larger than that, so something did form.

I had a look at the original research paper. Less sticky material would reduce the number of planetesimals and make the process of their formation slower. Both gives the remaining dust more chance to escape.
 
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It seems to me that the reason why Mars is small is because Jupiter is big.
Mars sort of 'got lucky' to not end up not being just another moon of Jupiter,
 
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As the New Scientist article states, the standard theory concerning Mars--going all the way back to 1755--is that the planet is small because of Jupiter.

But in the new theory, Mars is small because the solar flare-up didn't heat dust grains at its position much, so they didn't stick together much, so they could form only a planet much smaller than Earth.
 

Related to Earth may owe its birth to a solar eruption

1. What is the theory that suggests Earth's birth was caused by a solar eruption?

The theory is known as the "Solar Nebula Hypothesis" and suggests that the Sun and the planets formed from a spinning disk of gas and dust. It proposes that a massive solar eruption, known as a "solar wind", pushed this material outwards and eventually led to the formation of the planets, including Earth.

2. How could a solar eruption have affected Earth's formation?

The solar eruption would have caused a rapid outward movement of material from the spinning disk, known as the "protoplanetary disk". This would have caused the disk to flatten and form clumps of material, eventually leading to the formation of planets. Some scientists believe that this process may have also influenced the location and composition of Earth's core and mantle.

3. Is there evidence to support this theory?

Yes, there is evidence to support the Solar Nebula Hypothesis. Researchers have found that the chemical makeup of the Earth and other planets in our solar system is similar to that of the Sun, which supports the idea that they were all formed from the same spinning disk of gas and dust. Additionally, observations of other solar systems have shown similar patterns of planet formation, further supporting this theory.

4. Could a solar eruption have affected Earth in other ways?

Yes, a solar eruption could have had a significant impact on Earth beyond its formation. The energy and particles released during a solar eruption can cause disturbances in Earth's magnetic field and atmosphere, which can lead to phenomena such as auroras and disruptions in communication systems. These effects are more likely to occur during periods of high solar activity, such as solar flares or coronal mass ejections.

5. How does this theory fit into our current understanding of Earth's formation?

The Solar Nebula Hypothesis is currently the most widely accepted theory for how Earth and the other planets in our solar system formed. However, there are still many unanswered questions and ongoing research in this field. This theory provides a framework for understanding the processes that led to the formation of our planet and helps us to better understand the origins and evolution of our solar system.

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