Associated Press

Curiosity, Sojourner and Opportunity size comparisons to people.

via reddit

Water Droplet Orbiting a Needle in Space

“This experiment was performed back in 2012 by astronaut Don Pettit on board the International Space Station (ISS) as part of NASA’s Science off the Sphere series. And although the set-up may look a lot like a strangely shaped planetary system, the physics here is a little different, because it’s the effect of static electric forces, rather than gravitational pull, that’s keeping the droplets in orbit.“

This happens because our awesome astronaut rubbed the polyethylene needle with paper to create an electric charge, (similar to rubbing a balloon on your head..) which “captures” the water droplet in an orbit. In the absence of gravity the potential force of the charge keeps the water droplet in orbit.

Here’s an explanation from the astronaut himself. It’s awesome.

VIDEO.

Neat! :D

NASA Astronomy Picture of the Day 2016 February 11 

LIGO Detects Gravitational Waves from Merging Black Holes 

Gravitational radiation has been directly detected. The first-ever detection was made by both facilities of the Laser Interferometer Gravitational-Wave Observatory (LIGO) in Washington and Louisiana simultaneously last September. After numerous consistency checks, the resulting 5-sigma discovery was published today. The measured gravitational waves match those expected from two large black holes merging after a death spiral in a distant galaxy, with the resulting new black hole momentarily vibrating in a rapid ringdown. 

A phenomenon predicted by Einstein, the historic discovery confirms a cornerstone of humanity’s understanding of gravity and basic physics. It is also the most direct detection of black holes ever. The featured illustration depicts the two merging black holes with the signal strength of the two detectors over 0.3 seconds superimposed across the bottom. Expected future detections by Advanced LIGO and other gravitational wave detectors may not only confirm the spectacular nature of this measurement but hold tremendous promise of giving humanity a new way to see and explore our universe.

Quantum Vibrations Controlled For The First Time Ever, Could Help Find Gravitational Waves

A remarkable experiment has successfully seen the effects of “quantum motion” at a relatively large scale. These are essentially tiny vibrations caused on an atomic level when an object otherwise appears to be stationary. Among its many implications, the research – which was also able to temporarily stop the effect – could aid the hunt for elusive ripples in space-time called gravitational waves.

The study, published in the journal Science, was carried out by a team of researchers from the California Institute of Technology (Caltech) and collaborators. In classical physics, an object – such as a ball in a bowl – will eventually come to rest as the forces of gravity and friction act upon it. But in quantum mechanics, which governs the behavior of matter and light at an atomic scale, nothing is ever truly at rest.

This means that everything has an extremely small quantum noise, or motion; tiny vibrations at an atomic scale. In this experiment, the researchers were able to observe the effect not just at an atomic level, but at a larger micrometer-scale and, for the first time, control the effect.

To detect it, they placed a flexible aluminum plate on top of a silicon substrate. A superconducting electrical circuit was then used to vibrate the plate at 3.5 million times per second. Subsequently cooling the plate to 0.01 Kelvin (-273.14°C, -459.65°F) reduced the vibrations in a classical sense to zero, but probing it with microwave fields showed a small quantum motion – roughly the diameter of a proton, or 10,000 times smaller than a hydrogen atom.

“What we have found is that the motion of a micron scale object requires a quantum description,” co-author Keith Schwab from Caltech told IFLScience. “Classical physics just can’t capture the quantum noise we see.”

According to Schwab, the noise is an “unavoidable consequence of the Heisenberg Uncertainty Principle,” which essentially states that everything behaves like a particle and a wave at the same time. However, the team found that by carefully applying a controlled microwave field, they could reduce the motion in certain places, at the cost of making it much larger elsewhere. This technique is known as quantum squeezing.

Read more ~ IFL Science

Photo credit: agsandrew/Shutterstock.

Looks like they could kill you but is actually a cinnamon roll: W Boson

Looks like a cinnamon roll but could actually kill you: Photon

Looks like they could kill you and can actually kill you: Z Boson

Looks like a cinnamon roll and is actually a cinnamon roll: Gluon

Spinnamon Roll: Higgs Boson

Thermonuclear Art

It’s always shining, always ablaze with light and energy that drive weather, biology and more. In addition to keeping life alive on Earth, the sun also sends out a constant flow of particles called the solar wind, and it occasionally erupts with giant clouds of solar material, called coronal mass ejections, or explosions of X-rays called solar flares. These events can rattle our space environment out to the very edges of our solar system. In space, NASA’s Solar Dynamics Observatory, or SDO, keeps an eye on our nearest star 24/7. SDO captures images of the sun in 10 different wavelengths, each of which helps highlight a different temperature of solar material. In this video, we experience SDO images of the sun in unprecedented detail. Presented in ultra-high definition, the video presents the dance of the ultra-hot material on our life-giving star in extraordinary detail, offering an intimate view of the grand forces of the solar system.

Video source and credit: NASA Goddard (Highly recommended, don’t forget to watch in HD quality)

A High-Bandwidth Interplanetary Connection

(click picture for link)

“A new study suggests that by twisting laser light, scientists could pack enough information into interplanetary beams to speed up extraterrestrial communications to the multi-gigabit level.…”

The liquid oxygen/liquid methane engine, developed by Armadillo Aerospace with help from NASA, is tested in the vacuum chamber at NASA’s White Sands Test Facility, August 2009. (NASA)

NASA | Thermonuclear Art – The Sun In Ultra-HD

Watch the whole video here.

(CNN)

Star-forming region Gum 29

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