#Cosmos E9: Deepest Bluest

(I live tweet Cosmos every Sunday @ 8pm CST. For all of my Cosmos recaps, please click here)

This week's episode of Cosmos covered scientists such as Marie Tharp, who successfully mapped the ocean floor and its ridges, showing that the continents have been shifting over eons,  Earth's land mass transformed from one super continent known as Pangaea to the familiar continent outlay that we know today.  

The shifting had a significant effect on dead trees that lay deep in the rock of the planet. Eruptions caused poisonous gas to cover the Earth, freezing and heating up the planet and killing 90% of life. .

For more, check out the Storify of the live tweet below!

#Cosmos E8: Sister Act

(I live tweet Cosmos every Sunday @ 8pm CST. For all of my Cosmos recaps, please click here)

Episode 8 of Fox's Cosmos focuses on the stars in the night sky, and the immense effort behind categorizing them and figuring out their composition.  There were a significant amount of women that contributed heavily to astrophysics - Annie Jump Cannon, Henrietta Swan Levin and Cecilia Payne - but what's most sad is that there are many more who have been erased from history. I'm glad that Cosmos focuses on these women, known as Pickering's harem (seriously, Harvard still uses this antiquated term - wtf), but let's hope that this wasn't the "all women" episode of the series. They should be interdispersed throughout.

Check out the Storify below!

#Cosmos E7: So Fresh & So Clean Clean

(I live tweet Cosmos every Sunday @ 8pm CST. For all of my Cosmos recaps, please click here)

Episode 7 of Fox's Cosmos, entitled "The Clean Room", covered the search behind the age of the Universe. Meteorites found on the Earth surface contain a certain amount of lead, which is actually a decayed form of Uranium.  Thus, by measuring the amount of lead, one can determine the age of the rock, and this can be extended to the age of the Earth. Clair Patterson had to build a "Clean Room", a lab that was free of lead contamination so that he could accurately measure the amount of lead in a meteorite.

Lead was a popular ingredient in many products in the middle of the 20th century, from paint to gasoline. Patterson's work help to show that the amount of lead in the environment has been increasing over time, and this helped many industries (such as oil and petroleum) to stop using lead in their products, since it was known to be poisonous.  Of course, these industries did not go down without a fight, and hired their own scientists to push their agenda.

Check out Outkast's video for "So Fresh, Co Clean" below, as well as the Storify of the live tweet of the episode.

#Cosmos E6: How Deep? Put a Star To Sleep

(I live tweet Cosmos every Sunday @ 8pm CST. For all of my Cosmos recaps, please click here)

The sixth episode of Cosmos aired on Fox , and I held my usual live tweet which is shown below. But first, let's check out some videos from the episode.

Check out the complexity of "life in the dew drop", which features two life forms, Paramecium and. Dileptus, in an epic battle. It's amazing how much goes on within the smallest things that humans can observe.  As Tyson puts it, the dew drops has its own little cosmos within it.

 

Check out the advanced, underground chamber that the Japanese built to detect the neutrino. It had to be far underground so that other molecules wouldn't make it through the layers of Earth. A array of light detectors surrounded 50k tons of distilled water is the trap.

Finally, see how the finite speed of light prevents us from seeing farther back in time than 380,000 years after the Big Bang.

 

Check out the live tweet below!

#Cosmos E5: Spectrum shaker

(I live tweet Cosmos every Sunday @ 8pm CST. For all of my Cosmos recaps, please click here)

The fifth episode of Cosmos aired on Fox, and it is was all about the light spectrum, and how scientists from different countries (Joseph von Fraunhofer from Germany, Mozi from China,  Ibn al-Haytham from Iraq, Isaac Newton from England)  and time periods help us arrive at our current understanding of light. Most of the light that we see is white, and appears to have no color. However, white light is actually composed of ALL colors.  When light is translated through a different medium at exactly the proper angle, the colors separate and make a rainbow.  This happens with a prism, as well as with raindrops.

Interestingly enough, there is more light than in the visible spectrum.  Radio waves are a form of light, as well as X-rays that you've likely seen in the hospital.  Those are a few examples of other forms of light in the section beyond visible light, called the infrared spectrum.

Check out the live tweets below!