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Archive for the ‘physics’ category: Page 252

Dec 1, 2018

The Incandescent Drafts Of Brilliant Physicist Richard Feynman Have Sold At Auction For $4,922,625

Posted by in category: physics

Along with Richard Feynman’s varied scribblings and thoughts, his Nobel Prize, tambourine and book collection were also available at Sotheby’s.

One of the undisputed geniuses in the world of 20th-century physics was theoretical physicist Richard Feynman, and science enthusiasts will be delighted to learn that Feynman’s incandescent rough drafts of his thoughts and ideas headed to auction on Friday at Sotheby’s in New York, fetching a selling price of 4,922,625 USD.

As will be well-known to many people, Richard Feynman was a great popularizer of physics, and wrote entertaining and informative classics like S urely You’re Joking, Mr. Feynman, The Pleasure of Finding Things Out, QED: The Strange Theory of Light and Matter, and What Do You Care What Other People Think? As The New York Times reminds us, Feynman also played a crucial role in determining what had caused the devastating loss of the space shuttle Challenger.

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Nov 30, 2018

We could move to another planet with a spaceship like this

Posted by in categories: employment, physics, space travel

Proxima b, our nearest neighboring exoplanet, is almost 25 trillion miles away. Even one of our fastest spaceships—the 31,600-mile-per-hour New Horizons—would take hundreds of thousands of years to get there. Assuming we can’t figure out how to warp space-time (seems unlikely, but fingers crossed), we’re still looking at a couple-hundred-year trip in the best-case scenario, which leads to the real problem: No human crew could survive the entire ride. Science-fiction writers have long floated so-called generation ships as a solution. Designers would outfit these interplanetary cruise vessels to support a community of adults and their children, and their children’s children, and their children’s children’s children…until humanity finally reaches a new celestial shore. Here’s our best guess for what it would take to sow the seeds of an extrasolar species.

Career planning

Successive generations need to fill all the vital crew roles—such as medics and mechanics—which doesn’t leave much room for freedom of choice. A version of modern career tests would assign occupations based on aptitude, passions, and available jobs.

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Nov 29, 2018

Study unlocks full potential of ‘supermaterial’ graphene

Posted by in categories: computing, physics, solar power, sustainability

New research reveals why the “supermaterial” graphene has not transformed electronics as promised, and shows how to double its performance and finally harness its extraordinary potential.

Graphene is the strongest material ever tested. It’s also flexible, transparent and conducts heat and electricity 10 times better than copper.

After graphene research won the Nobel Prize for Physics in 2010 it was hailed as a transformative material for flexible electronics, more powerful computer chips and solar panels, water filters and bio-sensors. But performance has been mixed and industry adoption slow.

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Nov 28, 2018

Scientists Build Atomic Clocks Accurate Enough to Measure Changes in Spacetime Itself

Posted by in categories: physics, space

Physicists have created atomic clocks so precise that they can measure deformations in spacetime itself, according to new research.

We don’t all experience time passing equally—time passes more slowly closer to something massive’s gravitational pull, as famously theorized by Albert Einstein. And since gravity is typically interpreted as the way mass warps space itself, that means a precise-enough atomic clock could serve as a scientific tool for measuring how objects change the shape of their surrounding space.

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Nov 27, 2018

Michio Kaku — The Physics of Back to the Future — The River of Time

Posted by in categories: futurism, physics

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Nov 27, 2018

How scientists are working together to solve one of the universe’s mysteries

Posted by in categories: alien life, physics

All of these facts may make it sound as though scientists know a lot about Fast Radio Bursts. In reality, we don’t. For instance, though we know they’re not from our galaxy, we don’t know where exactly they come from. We don’t know what causes them. And we’re not sure whether they might be useful as cosmological standards to measure the large scale properties of our universe.

Dozens of theories about Fast Radio Bursts have been proposed. Some conform to standard physics. Others are more exotic, including cosmic strings – hypothetical, one-dimensional structures formed in the early universe – or even rather bizarre: one theory suggests that aliens are responsible.

Now, in an attempt to discover the truth about Fast Radio Bursts, we have created a catalogue that lists each theory, along with its pros and cons. Scientists from around the world can weigh in, and new data and discoveries will be added throughout the process.

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Nov 27, 2018

Physicists demonstrate a new device for manipulating and moving tiny objects with light

Posted by in categories: nanotechnology, physics

When you shine a beam of light on your hand, you don’t feel much, except for a little bit of heat generated by the beam. When you shine that same light into a world that is measured on the nano- or micro scale, the light becomes a powerful manipulating tool that you can use to move objects around – trapped securely in the light.

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Nov 27, 2018

Paving the way: An accelerator on a microchip

Posted by in categories: computing, physics

Electrical engineers in the accelerator physics group at TU Darmstadt have developed a design for a laser-driven electron accelerator so small it could be produced on a silicon chip. It would be inexpensive and with multiple applications. The design, which has been published in Physical Review Letters, is now being realised as part of an international collaboration.

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Nov 27, 2018

Ultrafast laser pulses control electrons in graphene, making ultrafast computing possible

Posted by in categories: computing, physics

IMAGE: The driving laser field (red) ‘shakes’ electrons in graphene at ultrashort time scales, shown as violet and blue waves. A second laser pulse (green) can control this wave and thus determine the direction of current. (Image credit: FAU/Christian Heide)

Being able to control electronic systems using light waves instead of voltage signals is the dream of physicists all over the world. The advantage is that electromagnetic light waves oscillate at petaherz frequency. This means that computers in the future could operate at speeds a million times faster than those of today. Scientists at Friedrich-Alexander University (FAU; Erlangen-Nurenberg, Germany) have now come one step closer to achieving this goal as they have succeeded in using ultra-short laser impulses to precisely control electrons in graphene. The scientists published their results in Physical Review Letters.

Current control in electronics that is one million times faster than in today’s systems is a dream for many. Ultimately, current control is one of the most important components as it is responsible for data and signal transmission. Controlling the flow of electrons using light waves instead of voltage signals, as is now the case, could make this dream a reality. However, up to now, it has been difficult to control the flow of electrons in metals as metals reflect light waves and the electrons inside them cannot be influenced by these light waves.

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Nov 25, 2018

Physicists Made the Most Precise Measurement of Protons’ “Magic Moment”

Posted by in category: physics

For the research, scientists had to work with single protons.

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