🔎solar eclipses have provided natural laboratories for intriguing scientific discoveries"
part 1

We've used [solar eclipses] to discover the shape of our world and the curvature of the universe," Tyler Nordgren,
The sun may be the Earth's closest star, but this body's very brightness makes it a challenge to observe.
The light from the solar body drowns out the fainter corona, the outer atmospheric layer of the star, a wispy region that becomes visible when the moon completely blocks the face of the sun during a total solar eclipse. "Trying to understand the sun without seeing its corona would have been like trying to learn about Earth without ever seeing its atmosphere, said Jay Pasachoff an astronomer at Williams College in Massachusetts.
Pasachoff has studied solar eclipses, both the science they can produce today and what scientists have learned from them throughout history.
"The corona is a major part of the sun, though it is hidden from us on Earth's surface except for the glimpses we get every year or two at eclipses," Pasachoff said in an email.
Solar prominences, the large accumulation of cooler gas held in place in the atmosphere by the sun's magnetic field, were also first recorded during a solar eclipse.
The sun's magnetic fields drive CMEs and other forms of space weather. Although magnetic field lines can't be directly seen, Young said that the charged particles that make up the corona trace the magnetic field lines, making them visible. So rather than a diffuse gas, the corona appears to have twisting, moving jets and lines running through it. Observations of the corona can then help scientists better understand the primary drivers of the space weather that can affect Earth and missions to other worlds, Young said.

In 1868, French solar physicist Jules Janssen traveled to India to observe a solar eclipse.By examining the light streaming from the sun's chromosphere (another layer of the atmosphere that lies closer to the sun's body than the corona), he and British astronomer Joseph Norman Lockyer independently discovered a new chemical element. He named this new find after the Greek word for sun, "helios," calling the new find "helium.Soon after the discovery of helium, American astronomer Charles Augustus Young and Scottish-born astronomer William Harkness independently discovered what they thought was another new element, which they called coronium, during the 1879 solar eclipse. According to Canada’s University of Ottawa, it took another 60 years for scientists to determine that the coronium lines were instead caused by iron at very high temperatures, suggesting that the corona reached nearly (1.9 million degrees Celsius )even though the surface of the sun is only about (5,538 degrees C).This discovery is counterintuitive, because the body of the sun is the source of its heat; it's as if the air around a bonfire were hotter than the fire itself.
The solar corona is hotter than the visible surface. Wow!" Young said when describing what, to him, is the most interesting historical finding related to eclipses
Today, scientists can create artificial eclipses with telescopes on Earth and in space by blocking the sun's light with an instrument known as a coronagraph. (to know more about it)
https://amp.space.com/35918-nasa-solar-storm-warning-protect-astronauts.html
According to Nordgren, who is also a professor at the University of Redlands in California, over 2,000 years ago, solar and lunar eclipses helped scientists determine the size of the moon and that Earth is a sphere.

Probing Earth's atmosphere
With modern instruments, scientists can use solar eclipses to study the nature of Earth's own atmosphere.
🖇be with theoretically possible

2015 Player's PER Average from Regular Season and Playoffs. Those who didn't pass the 1st round don't count.

1. Stephen Curry - 26.25
2. Chris Paul - 25.85
3. James Harden - 25.75
4. LeBron James - 25.6
5. Blake Griffin - 23.8

2016's top 5 - https://plus.google.com/114649433706032813933/posts/8sx38XoUZQK

Does this seem accurate with your own?