China's e-commerce giant Alibaba, which started in an apartment with a pooled collection of $60,000, is expected to make its Wall Street debut raising $24 billion -- even more than when Google and Facebook went public. The company already surpasses eBay in China, with founder Jack Ma looking to take Alibaba's reach global. What would the IPO mean for the Chinese company and its U.S. competitors?
Biomimicry, ecosystem restoration, grassroots movement building and climate change are the types of issues the Bioneers Conference addresses each year, bringing together scientists, innovators, business leaders and activists. This year marks the 25th anniversary of the conference. We talk with co-founder and CEO Kenny Ausubel about what the organization has achieved and what projects are on the horizon.
Matthew Schneps holds a Ph.D. in physics but his success came with a certain measure of challenge. In addition to being
an astrophysicist, Schneps is also dyslexic, which means he joins approximately 15
percent of Americans in a struggle to read.
“When I read, I find it’s very hard for me to kind of mentally lock on to the words,” Schneps said.
One thing has helped, however — Schnep’s smart phone, which helped him bridge the distance between his mind
and the written word.
But was the device just helpful to him? Or it could it be helpful to others?
In a recent report for the National Science Foundation’s “Science Nation,” NewsHour Science correspondent
Miles O’Brien covered Schneps’ exploration of the smart phone as a better reading device for students.
In an initial study, Schneps monitored 100 students with dyslexia while they read on smart phones to see if it improved
their comprehension of science, technology, engineering and math lessons. While it aided some students, not all were impacted.
Schneps then turned to an eye tracker to see if students read faster on a smart phone or on a tablet. Overall, the students
tested read faster on a smart phone.
Because people with dyslexia tend to get distracted by many words on one page, the key, according to Schneps, is only having
two or three words in a line.
While Schneps still has to uncover why some students benefit from reading on devices over paper, he is committed to finding
an alternative for scholars like himself.
“For me, the name of the game is to level the playing field,” he said. “To make reading something that’s
not an impediment to success.”
Miles O’Brien has more on this story for the National Science Foundation* series “Science
Nation.”
*For the record, the National Science Foundation is also an underwriter of the PBS NewsHour.
A
doctor explains the dangerous effects of the drugs known as “bath salts”.
Scientists have developed a new method
for identifying illegal “bath
salts”, synthetic drugs recently banned in the United States.
Similar to amphetamines, users experience an initial euphoria followed by terrifying hallucinations, paranoia, depression.
The drugs also cause violent outbursts, leading to hospitalization and in some cases suicides.
To find the drugs, law enforcement needs laboratories to test for the drugs. The suggested technique of using mercury to
test for the drugs was seen as impractical because of mercury’s toxicity.
Chemists Craig E. Banks and Oliver Sutcliffe of Manchester Metropolitan University are developing a new, portable method
to detect the drugs. Using a mercury-free electrode, they tested their new method on drugs purchased on the internet. Their
results are described in the journal Analytical Chemistry, published by
the American Chemistry Society.
The false-color view of the monthly-averaged total ozone over
the Antarctic pole. The blue and purple colors are where there is the least ozone, and the yellows and reds are where there
is more ozone. Photo by NASA.
After 35 years of facing depletion, Earth’s ozone layer has shown signs that it’s recovering, a U.N. scientific
panel said Wednesday.
Ozone levels saw a four
percent increase from 2000 to 2013, NASA scientist Paul A. Newman said. The panel’s report added that this reversal
came after years of ozone depletion in the 1980s and early 1990s and relatively unchanged levels in the 2000s.
These positive findings can be contributed, the report said, to “concerted international action” against man-made
chlorofluorocarbons, CFCs, chemicals found in refrigerant coolants, spray aerosols and other products. The report namechecks
the Montreal Protocol, as a major source of this environmental
story’s success. The international treaty, which came into fruition in 1987, sought to reduce the world’s reliance
on CFCs and other substances that proved harmful to the ozone layer.
The protective ozone layer around Earth is made up of stratospheric molecules that help shield the planet from the ultraviolet
radiation of the sun. Exposure to this solar radiation has been linked to skin
cancer and cataracts, and has been known to impair plant growth and development in many marine organisms.
Despite the good news, scientists explain that the Antarctic
ozone hole will continue to appear over the Southern Hemisphere because while emissions of CFCs have slowed, they’ll
continue to linger in the atmosphere.
“International action on the ozone layer is a major environmental success story,” said Michel Jarraud, secretary-general
of the World Meteorological Organization. “This should encourage us to display the same level of urgency and unity to
tackle the even greater challenge of climate change.”
Published by the United Nations Environment Programme, UNEP, and WMO, the assessment was consulted by 300 scientists and
is updated every four years.
To study black holes, scientists flock to the ALMA Observatory atop a mountain in the middle of the Atacama Desert
in northern Chile to get a better look at the sky. Time-lapse video by Joshua Barajas and Rebecca Jacobson/PBS NewsHour
The most important thing I learned from working at 16,500 feet above sea level is this: High altitude makes you stupid.
The telescopes at the ALMA observatory sit on the Chajnantor Plateau
in northern Chile’s Atacama Desert, just 400 feet lower than Mount Everest’s North Base Camp. We were there to interview the
scientists behind the Event Horizon telescope, a project with a lofty goal: to capture the first-ever image of a black hole
at the center of our Milky Way galaxy.
In this GoPro time-lapse video, we captured the 45-minute ascent from ALMA’s low site to its high site, where
the observatory’s array of 66 antennas can be found at approximately 16,500 feet above sea level. Video by Joshua Barajas/PBS
NewsHour
But inside the control room at 16,500 feet, my head was splitting. I was out of breath and couldn’t tell if my shot was
in focus. My cameraman Josh Barajas was struggling too. He asked repeatedly where his memory card was, and repeatedly I told
him he’d already put it in the camera.
Meanwhile, I stared dumbly at the camera in my hands. Despite more than a decade working with video equipment
I heard myself mutter: “How do I plug in the microphone?”
At that point, our guide Sergio Cabezon clipped a pulse oximeter on my finger, a device to measure my pulse and blood oxygen
levels. My blood oxygen read 83 — that’s low. At sea level, I would be in the hospital for a reading of 93. Cabezon
slipped an oxygen tank on my back. With plastic tubes up my nose pumping oxygen to my brain, the headache vanished and my
thoughts cleared.
Scientists working at ALMA call this a “summit moment,” where the lack of oxygen starts to affect your ability to think
and communicate clearly. Every scientist we spoke with had a story: One bilingual scientist lost the ability to translate
words; another tightened a screw for a full five minutes only to realize he was unscrewing it; others complained of feeling
dizzy, lightheaded and taking unintelligible notes.
Some say the altitude gives them a voracious appetite. Others drop weight from the nausea. The altitude also screws up
your vision, which explained why my eyes had trouble focusing.
A cafeteria worker at ALMA’s low site rests
after serving lunch to on-site scientists and contractors. Photo by Joshua Barajas/PBS NewsHour
Acute mountain sickness
can start as low as 6,000 feet above sea level. At first, it feels a lot like a nasty hangover. Desperate for oxygen, the
blood vessels dilate, pumping extra blood to the brain. The brain swells, pressing against the skull. That pressure triggers
a headache, one of the first symptoms of mountain sickness, along with sluggish thinking.
Such symptoms can pose a problem when you’re working with highly-sensitive, multimillion-dollar equipment that operates
the most sophisticated radio telescope in the world.
Three antennas await repair at ALMA’s
low site. Each antenna seen here is designed by a different collaborator — be it Europe, North America or South Asia
— while Chile’s involvement in this worldwide astronomical project cannot be understated; ALMA’s array of
66 antennas rest in the country’s Atacama Desert. Photo by Joshua Barajas/PBS NewsHour
ALMA stands for Atacama
Large Millimeter Array, named for the array of 66 antennas that form a giant radio telescope, the most powerful in the world.
They are so precise they can pick out a golf ball 9 miles away. The dishes of the large antennas are 40 feet in diameter.
Their antennas weigh up to 100 metric tons and each contains a highly sensitive receiver, worth as much as a Ferrari. Together,
they represent a critical piece of the Event Horizon Telescope.
Capturing an image of Sagittarius A*, the black hole at the center of our galaxy, requires a massive lens — a lens
the size of the Earth. Using a technique called very long baseline interferometry, the Event
Horizon Telescope project is designed to link the ALMA observatory with others in Arizona, California, Hawaii, the South
Pole and hopefully Greenland to form a telescope that’s giant enough, with a high-enough resolution to see that black hole.
Far removed from any light
pollution, the Milky Way is easily seen from ALMA’s low site. Photo by Joshua Barajas/PBS NewsHour
To detect
the faintest radiation coming from space, the telescope is located high in the Atacama desert. The Atacama’s extremely
high altitudes offers one of the world’s best views of the night sky. And whereas moisture distorts signals from space, the
Atacama is so dry that scientists believe there are parts of this desert where it
hasn’t rained in more than 400 years. Water, at least 26 gallons a day per person, has to be trucked up the mountain every
day from the town of Calama, a two hour drive from the ALMA observatory.
In this GoPro time-lapse video, we captured the drive through the barren Atacama Desert, starting from Calama, a city
in northern Chile. Video by Joshua Barajas/PBS NewsHour
On that drive, the landscape is Martian — all red dirt and high mountains marked by swaths of salt. Its similarity to the
Red Planet made it the perfect test site for the ESA
Mars Rover last year.
“I think it takes awhile being here on the site to start to see this for what it is,” said Richard
Simon, a National Radio Astronomy Observatory astronomer who frequently works at ALMA. “It’s a spectacular and sublime
desert.”
We stopped at a lookout point just outside the dusty, tourist-friendly town
of San Pedro, Chile to catch the Cordillera de la Sal, or Salt Mountains, at sundown. Photo by Joshua Barajas/PBS NewsHour
Wild
donkeys roam the mountainside, surviving off the sparse shrubs. The donkeys were once used in the local mines, carrying equipment
up the mountains. When the mines closed, the donkeys were abandoned. But they have thrived, pushing out the native vicunas,
a local llama cousin. The donkeys are generally a nuisance, wandering in front of cars and devouring everything they can chew.
They once destroyed a small lemon tree that ALMA workers tried to grow outside the safety office, proof that keeping any greenery
around the site is futile.
Semi-wild donkeys tend to wander onto ALMA’s
Operations Support Facility, or OSF site, which is about 9,500 feet above sea level. We found one eating a shrub outside a
scientist’s dormitory. Photo by Joshua Barajas/PBS NewsHour
Scientists and engineers at ALMA work in shifts
— one week on duty, one week off. They stay in the living quarters at the site, sleeping during the day and observing all
night — unless they need to be up during the day to repair equipment. It means long hours and disrupted sleep patterns.
A dust devil forms outside the ALMA Observatory’s low
site. Photo by Joshua Barajas/PBS NewsHour
For visitors like us, visiting ALMA’s Operations Support Facility —
elevation 9,514 feet — required a sign-off from a doctor. Then, before ascending to the high site where the antennas
are, paramedics again checked our blood pressure and heart rate. If either had clocked in too high, we’d be banned from ascending
to the high site that day. No exceptions. The altitude can be deadly.
Acute mountain sickness can make the body shift oxygen away from its limbs to its most vital organs, said Ivan Lopez, ALMA’s
health and safety manager. Ascending to 16,000 feet with high blood pressure or a high heart rate could result in a stroke,
he told us. More seriously, high altitude can cause pulmonary
edema. Fluid fills your lungs, and you suffocate.
Taking Diamox, an acute mountain sickness medication, can help. But it has side effects, as Josh discovered: tingling in
the limbs and nausea, for example. Weirdly, it can also alter your sense of taste, making carbonated beverages taste flat.
Scientists
and engineers at the ALMA Observatory make time for recreation. While we struggled to go up a flight of stairs, acclimating
to the high altitude, they were playing basketball, tennis or, in this case, kiting a paraglider. Photo by Joshua Barajas/PBS
NewsHour
After a few days, people typically acclimate to the high altitude. ALMA staff who visit the high site regularly
walk around without oxygen tanks. (To help us acclimate we were required to spend at least one night sleeping in San Pedro
de Atacama, 7,900 feet, before we could visit the OSF.) But even with the right precautions, healthy, fit people can become
very ill, Lopez said. The operations building at the high site is staffed with a team of paramedics, and equipped with extra
tanks of oxygen, an ambulance and a portable hyperbaric chamber, just in case.
At ALMA’s low site, an UV ray indicator offers suggestions for each level of ultaviolet
radiation. Midday, the UV gauge typically reached “EXTREMO. A sign below offers the following suggestion for an “extreme”
alert: “Avoid the sun. Use protection.” Photo by Joshua Barajas/PBS NewsHour
Ultraviolet radiation from
the sun is also a concern at these altitudes. Outside the OSF main building, a meter gauges the UV danger. Bottles of SPF
50+ sunscreen are stationed at every doorway in ALMA, with reminders to put it on before going outside.
The gravel roads to the Chajnantor plain are as treacherous as the altitude or the sun, and were built to accommodate the
transporters, which carry the antennas to and from the OSF. From there, it takes approximately 45 minutes to reach the plateau,
an elevation gain of 7,000 feet. And on descent, the rapid change in altitude can cause people to pass out. Once, an employee
fell asleep behind the wheel and died when he careened off the road. Now, only 4×4 trucks with roll-bars and certified
drivers are allowed.
Shortly
after taking this GoPro photo, Josh passed out as we descended from ALMA’s high site, an expected physiological response
to high altitudes. To the right, a sign reads “PELIGRO,” which is “DANGER” in Spanish. Photo by Joshua
Barajas/PBS NewsHour
Chile is also geologically and seismically active. An active volcano just 25 miles south of
ALMA occasionally spews steam, dust and ash, and ALMA’s antennas were built to withstand earthquakes, winds and below-freezing
temperatures.
While the desert is awe inspiring, scientists, Simon said, are here for the sky.
“We’re not up here to have gourmet meals, and we’re not up here to sleep in luxury hotels,” Simon said. “We’re
up here for this: to look up.”
Two ALMA antennas facing different parts of the
cloudless night sky. Photo by Joshua Barajas/PBS NewsHour
Astronomers at ALMA also study the births of galaxies,
stars and the chemistry of the gas and dust in the early universe. That’s why its name, which in Spanish means “soul”, is
so appropriate, he said.
“The reason ALMA exists is that there is something about astronomy, about learning about our universe and reaching out
into it that’s a very human and very important thing to do,” Simon said. “There is a deep curiosity that we all have. I know
that 100 years from now my name and what I’ve done for this project will probably not be remembered…but what this instrument
does and what it means to everyone around the world is something that will be remembered.”