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Pray Braver. Al-Qaida became the nucleus of a global violent Islamist movement, with affiliates across the Middle East and Africa swearing their allegiance. Leaders were killed by drone strikes or driven into hiding. Bin Laden and other al-Qaida leaders sought refuge in places like the Federally Administered Tribal Areas of Pakistan and Yemen — remote areas outside the easy reach of U. To evade U. Bin Laden expected al-Qaida affiliates to adhere to certain core values, strategies and, of course, pursue the objective of establishing an Islamic caliphate.
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But newly minted regional al-Qaida leaders — people like Abu Musab al-Zarqawi in Iraq, Ahmed Abdi Godane in Somalia and Nasir al-Wuhayshi in Yemen — enjoyed enough autonomy to pursue their own agendas in these unstable places. Al-Qaida Iraq, al-Shabaab and al-Qaida in the Arabian Peninsula, as their groups came to be known, embedded themselves in the local political scene.
They began building credibility, establishing alliances and recruiting fighters. By , when bin Laden was killed, al-Qaida was a network of regional caliphates. Al-Qaida in the Arabian Peninsula, headquartered in Yemen, is a case study in how the group now wields its power more locally. The group has played up religious divisions in the civil war. Al-Qaida in the Arabian Peninsula had hundreds of fighters at its founding in It now has about 7, fighters in Yemen , most of them Sunnis recruited from territory the Houthis have attempted to take over.
It has planted landmines and bombs across Yemen that have killed hundreds , held journalists hostage and, in , orchestrated the massacre at the offices of the Charlie Hebdo newspaper in Paris. The U.
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In adapting its methods to Yemeni culture, al-Qaida in the Arabian Peninsula has made some missteps. In , the group attempted to impose extremely strict Islamic rule over two areas it controlled in south Yemen. The tight weave prevents the spike from getting all the way through, from working its way through.
And the strength of that Kevlar actually helps blunt that tip and maybe even bend that tip if you are strong enough. And that gives me an idea. Tucker, I've got this friend. Um he's got a fleet of nuclear aircraft carriers and, they have these steel cables, a lot like this, that are designed to stop aircraft that are landing, or miles an hour. How does the strength of one of these cables compare with a steel cable?
Tucker Norton: Well, we'd expect the strength of this, the tensile strength, to be actually equal or better than something like the steel cable. With its tensile strength greater than steel, extreme flexibility and heat resistance, in a package that weighs one-fifth as much as steel, Kevlar could, one day, be a replacement for steel cables. But already there may be other, stronger alternatives. Scientists like Ray Baughman, at the University of Texas, are exploring the remarkable properties of a brand new material.
I just thought they'd be smaller. I'm right.
They're about a billion times smaller. Nanotubes are made of carbon atoms arranged in a rolled up, chicken-wire like structure. Besides nanotubes there are other forms of pure carbon, like diamond and graphite, the stuff of pencil lead.
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Nanotubes get their strength from the extremely strong bonds between carbon atoms. Ray Baughman: These carbon nanotubes can have spectacular mechanical properties, spectacular strength and very high toughness. One, a smooth surface with a thin layer of catalyst, a chemical that helps jump-start the tubes; two, a special mix of gases, full of carbon atoms, and three, this furnace, which, by the way, is really, really hot.
Oh, I see the little black wafer in there. That's it? That is very cool, baking away in there. Wow, it's like a nuclear tanning bed. So, if I were to really look in close to that, what would I see? What's it really look like under the microscope?
Each nanotube looks like a tall and thin bamboo tree: hollow inside, so thin that if you could scale one up until it was one inch wide at the base, the top of it would reach two miles into the sky. Now, picture nanotubes by the billions, all standing shoulder to shoulder and you have one of Ray's nanotube forests. Ray Baughman: There are, in fact, there are about billion of carbon nanotubes in that area. Even so, there is already a rapidly-growing market for nanotubes particles as strength additives for tennis rackets, bicycle frames, even high-end car bumpers.
Many products already incorporate carbon fibers, which are part carbon, part plastic. But nanotubes have greater tensile strength and toughness. Ray has set his sights on making super-strong materials that are percent pure nanotube, made from his nanotube forests.
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Ray Baughman: These aren't just ordinary carbon nanotube forests. They are nanotube forests that have a very special type of connectivity between nanotubes. When we pull out one nanotube, that nanotube pulls out its neighbors, who pulls out other neighbors, to self-assemble a yarn or a sheet.