And Yet GDP Is A Fairly Useless Metric

Oops

When humans “domesticated” fire 400,000 years ago they made the right combination of conditions – longer periods with close human contact, plus smoke-damaged lungs – for tuberculosis to mutate from a harmless soil bacterium into our number one bacterial killer, according to new research.

Why do we not discuss clouds more?

I mean look at that. That’s water.

Flying water.

FLYING

FUCKING

WATER

LIKE WHAT THE FUCK, WHY DO WE EVER STOP TALKING ABOUT THIS

WHAT IS THIS

HOW IS THIS EVEN

AND NOW THE FLYING WATER IS EATING A MOUNTAIN

GOD DAMN, WHAT

I've seen them perform, absolutely amazing

The Forgotten Earthquakes

On July 28th, 1976, two earthquakes hit in China, near the city of Tangshan. They were just 100 miles from Beijing. Tangshan was a city of 1 million that was almost completely destroyed in a day. Beijing’s port city, Tianjin, was also hit as was parts of the capital Beijing. Although the death toll was never confirmed by Chinese authorities, it may have exceeded 700,000. That would easily make the Tangshan earthquakes the most deadly natural catastrophe of the 1900s.

China at the time was still reeling from the aftermath of its decade-long and ultimately pointless “Cultural Revolution.” The response to the earthquakes was incompetent, ineffective, and corrupt. It directly led to more deaths and more suffering. Word of the earthquake and the terrible relief effort spread throughout China. In whispers, of course, since counterrevolutionaries were and are still arrested when the crime is nothing more than speaking a unhappy truth about the government. Already in poor health, Mao died just six weeks after Tangshan. And suddenly that and the ensuing power struggle were all that was talked about. The largest natural disaster of a century, and it is not taught or remembered.

Space Station Science: Biological Research

Each month, we highlight a different research topic on the International Space Station. In August, our focus is biological research. Learning how spaceflight affects living organisms will help us understand potential health risks related to humans on long duration missions, including our journey to Mars.

Cells, microbes, animals and plants are affected by microgravity, and studying the processes involved in adaptation to spaceflight increases our fundamental understanding of biological processes on Earth. Results on Earth from biological research in space include the development of new medications, improved agriculture, advancements in tissue engineering and regeneration, and more. 

Take a look at a few of the biological research experiments performed on space station:

Biomolecule Sequencer

Living organisms contain DNA, and sequencing DNA is a powerful way to understand how they respond to changing environments. The Biomolecule Sequencer experiment hopes to demonstrate (for the first time) that DNA sequencing is feasible in an orbiting spacecraft. Why? A space-based DNA sequencer could identify microbes, diagnose diseases and understand crew member health, and potentially help detect DNA- based life elsewhere in the solar system.

Ant-stronauts

Yes, ant-stronauts…as in ants in space. These types of studies provide insights into how ants answer collective search problems. Watching how the colony adapts as a unit in the quest for resources in extreme environments, like space, provides data that can be used to build algorithms with varied applications. Understanding how ants search in different conditions could have applications for robotics.

TAGES

The TAGES experiment (Transgenic Arabidopsis Gene Expression System) looks to see how microgravity impacts the growth of plant roots. Fluorescent markers placed on the plant’s genes allow scientists to study root development of Arabidopsis (a cress plant) grown on the space station. Evidence shows that directional light in microgravity skews root growth to the right, rather than straight down from the light source. Root growth patters on station mimic that of plants grown at at 45% degree angle on Earth. Space flight appears to slow the rate of the plant’s early growth as well.

Heart Cells

Spaceflight can cause a suite of negative health effects, which become more problematic as crew members stay in orbit for long periods of time. Effects of Microgravity on Stem Cell-Derived Cardiomycytes (Heart Cells) studies the human heart, specifically how heart muscle tissue contracts, grows and changes in microgravity. Understanding how heart muscle cells change in space improves efforts for studying disease, screening drugs and conducting cell replacement therapy for future space missions.

Medaka Fish

Chew on these results…Jaw bones of Japanese Medaka fish in microgravity show decreased mineral density and increased volume of osteoclasts, cells that break down bone tissue. Results from this study improve our understanding of the mechanisms behind bone density and organ tissue changes in space.

These experiments, and many others, emphasize the importance of biological research on the space station. Understanding the potential health effects for crew members in microgravity will help us develop preventatives and countermeasures.

Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com

House With Unique Pivoting Door 

Architects-  Diego Guayasamin Arquitectos Location- Quito, Ecuador Images- Sebastián Crespo Source- contemporist

*for design inspiration, follow @designismymuse

Residence in Woody Creek, Colorado

Perched at the rivers edge, this Pampiano Residence by Studio B consists of an addition to the existing house as well as a detached garage with a dwelling unit above. The new architecture reinterprets the existing house and marries the project as ‘a whole’ through its use of materials, patterns and massing.

Images and text via + via

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My question is, is the IDA going to be a standard for spacecraft? Do we have standard ports already?

Spacewalk Friday: Installing a New "Parking Spot" on Station

This Friday, Aug. 19, two U.S. astronauts will install a new gateway for American commercial crew spacecraft at the International Space Station. 

Commercial crew flights from Florida’s Space Coast to the International Space Station will restore America’s human spaceflight launch capability and increase the time U.S. crews can dedicate to scientific research.

The adapter being installed (imaged below) was launched on a SpaceX Dragon cargo spacecraft and arrived on orbit July 20. This ring is known as an International Docking Adapter, or IDA, and its main purpose is to provide a port for spacecraft bringing astronauts to the station in the future. Outfitted with a host of sensors and systems, the adapter is built so spacecraft systems can automatically perform all the steps of arrival and docking with the station without input from the astronauts. 

NASA astronauts Jeff Williams and Kate Rubins will perform the spacewalk to install the equipment this Friday, Aug. 19. This will be the fourth spacewalk in Williams’ career and the first for Rubins.

Four previous spacewalks…like the one below…helped set the stage for installation of this docking adapter. During those previous spacewalks, other crew members laid hundreds of feet of power and data cables outside the space station. 

On Wednesday, the robotics team using the Canadarm2 and its attached “Dextre” manipulator, will reach into the SpaceX Dragon trunk and pull out the docking adapter and position it for Friday’s spacewalk activities.

The morning of the spacewalk, while the astronauts are getting suited up, the robotic arm will position the docking adaptor near the port so that it will be ready for installation.

The two astronauts will venture outside the space station to install the first International Docking Adapter (IDA). This new adapter port will provide a parking space for U.S. Commercial Crew vehicles.

Watch LIVE!

Coverage of the spacewalk begins at 6:30 a.m. EDT on Friday, Aug. 19; with the spacewalk scheduled to begin at 8:05 a.m. EDT. Stream live online HERE. 

Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com