Test - Blog Posts

And here’s the final character and the main one for @sethlenin’s fanfics, Seven or Sev for short. Sev is basically the Eleven of the group, being a test subject from Hawkins lab and having escaped there with a body count. Unlike El and many of the test subjects at the lab, Sev has water bending powers. Or hydrokinesis if you want to be technical. Sev is sixteen-year-old boy who is found by Gabe and AJ scavenging for food at the former’s house. Of the people in the group, Tara is the one he forms the strongest connection to. I ship it. #Tarven I’m actually really happy with how he came out. According to the character’s creator, he was supposed to be non-binary but that was changed due to how the term probably wasn’t that common in the 1970s. Their face claim/physical inspiration is that of the non-binary @lachrwatson Sev an absolute sweetheart in the story and I love his relationship with Tara and him trying appeal to Naty. #sevenchronicles #strangerthings #sev #seven #stranger #things #water #waterbender #bender #powers #power #love #friendship #nonbinary #hawkins #hawkinslab #testsubject #test #subject https://www.instagram.com/p/ChbhJeUOSJr/?igshid=NGJjMDIxMWI=

I wanted to make them creepy but also hot

@kito-kat

Stealing another trend from Twitter.

Picrew

Test

Uhuh, think I'm gonna tag people. @vahingoniloinenlapsi @nacisses @ryuseiired @chocodaffodil @umilily and uhuhyh @laly-481 @shinkaishoujo103 @saveourship

I have an idea but it might cringe so to test the cring level I'm writing this

"Day 1

I don't know where I am, what happened to bring me here or how to get out.

I'm uh...a few seconds away from screaming and crying but screaming and crying won't solve anything so I'm making audio logs on my phone.

I'm currently in...a white void. It seems. White as far as I can see, everywhere. No sky, just more white. It's very dissorenting.

The time on my phone is frozen, it's still reading 6:25 pm on August 15th, 2000...but the last two digits are replaced by Xs. But I remember what year it is, it's 20XX.

...what?

20XX.

20XX

2019?

20XX.

What the fuck? Why can't I say the year..?

I-this just got worse.

I wanna go home.

Day 1 log end."

I push the end recording button on my phone, looking up at the vast white void around me. I sigh and slump forward "Fuck..."

*laughs in free university

And then one day, you don't get the job done, the illusion collapses into a black hole of anxiety and stress, and you simply scroll away your sorrows, waiting for the next deadline while looking at cute kittens and reading smartass quotes that validate your lack of energy.

I wanted to change my draw style, so I do this sketch… And I happy to see the result !

And yes, it’s in French, because im french…

… THIS IS SO LOGICAL !!!

Just passed my drivers test. Third time really is the charm. Missed two btw

Good morning ✨

Really lazy since I’m still sad about all my work disappearing but here.

Drew this as a test for some other techniques and low key kinda beef w it I need my pressure sensitive brushes back ibis whyyyy 😔😔😔

First test anim, might put some music idk

More test animation. This was from when we were working out X- key’s fighting style.

Hello world ;)

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/* Code */

==============================================

Log: 2011-09-28 14:42:28

==============================================

Inverse Fourier transform. Done

Memory Usage #02 : 76 Mb

G:\Java-Lo-optimization-tool-Explore\images\PAT007.01.jpg

Input Image : 256 x 256 pixels

Starting FFT..

X-Spectrum Calculated

Y-Spectrum Calculated

Data set to SpectaPlot

Memory Usage #01 : 57 Mb

Inverse Fourier transform started...

Inverse Fourier transform. Done

Memory Usage #02 : 90 Mb

Exception in thread "AWT-EventQueue-0" java.lang.ArrayIndexOutOfBoundsException: 65536

at FFTool_M.SpectrumCalc.histogramY(SpectrumCalc.java:66)

at FFTool_M.DesktopApplication1View.spectrumPlot(DesktopApplication1View.java:856)

at FFTool_M.DesktopApplication1View.sampleSliderStateChanged(DesktopApplication1View.java:2725)

at FFTool_M.DesktopApplication1View.access$3200(DesktopApplication1View.java:30)

at FFTool_M.DesktopApplication1View$12.stateChanged(DesktopApplication1View.java:1341)

at javax.swing.JSlider.fireStateChanged(Unknown Source)

at javax.swing.JSlider$ModelListener.stateChanged(Unknown Source)

at javax.swing.DefaultBoundedRangeModel.fireStateChanged(Unknown Source)

at javax.swing.DefaultBoundedRangeModel.setRangeProperties(Unknown Source)

at javax.swing.DefaultBoundedRangeModel.setValue(Unknown Source)

at javax.swing.JSlider.setValue(Unknown Source)

at javax.swing.plaf.basic.BasicSliderUI$TrackListener.mouseDragged(Unknown Source)

at java.awt.Component.processMouseMotionEvent(Unknown Source)

at javax.swing.JComponent.processMouseMotionEvent(Unknown Source)

at java.awt.Component.processEvent(Unknown Source)

at java.awt.Container.processEvent(Unknown Source)

at java.awt.Component.dispatchEventImpl(Unknown Source)

at java.awt.Container.dispatchEventImpl(Unknown Source)

at java.awt.Component.dispatchEvent(Unknown Source)

at java.awt.LightweightDispatcher.retargetMouseEvent(Unknown Source)

at java.awt.LightweightDispatcher.processMouseEvent(Unknown Source)

at java.awt.LightweightDispatcher.dispatchEvent(Unknown Source)

at java.awt.Container.dispatchEventImpl(Unknown Source)

at java.awt.Window.dispatchEventImpl(Unknown Source)

at java.awt.Component.dispatchEvent(Unknown Source)

at java.awt.EventQueue.dispatchEventImpl(Unknown Source)

at java.awt.EventQueue.access$000(Unknown Source)

at java.awt.EventQueue$1.run(Unknown Source)

at java.awt.EventQueue$1.run(Unknown Source)

at java.security.AccessController.doPrivileged(Native Method)

at java.security.AccessControlContext$1.doIntersectionPrivilege(Unknown Source)

at java.security.AccessControlContext$1.doIntersectionPrivilege(Unknown Source)

at java.awt.EventQueue$2.run(Unknown Source)

at java.awt.EventQueue$2.run(Unknown Source)

at java.security.AccessController.doPrivileged(Native Method)

at java.security.AccessControlContext$1.doIntersectionPrivilege(Unknown Source)

at java.awt.EventQueue.dispatchEvent(Unknown Source)

at java.awt.EventDispatchThread.pumpOneEventForFilters(Unknown Source)

at java.awt.EventDispatchThread.pumpEventsForFilter(Unknown Source)

at java.awt.EventDispatchThread.pumpEventsForHierarchy(Unknown Source)

at java.awt.EventDispatchThread.pumpEvents(Unknown Source)

at java.awt.EventDispatchThread.pumpEvents(Unknown Source)

at java.awt.EventDispatchThread.run(Unknown Source)

Exception in thread "AWT-EventQueue-0" java.lang.ArrayIndexOutOfBoundsException: 65536

at FFTool_M.SpectrumCalc.histogramY(SpectrumCalc.java:66)

at FFTool_M.DesktopApplication1View.spectrumPlot(DesktopApplication1View.java:856)

at FFTool_M.DesktopApplication1View.sampleSliderStateChanged(DesktopApplication1View.java:2725)

at FFTool_M.DesktopApplication1View.access$3200(DesktopApplication1View.java:30)

at FFTool_M.DesktopApplication1View$12.stateChanged(DesktopApplication1View.java:1341)

at javax.swing.JSlider.fireStateChanged(Unknown Source)

at javax.swing.JSlider$ModelListener.stateChanged(Unknown Source)

at javax.swing.DefaultBoundedRangeModel.fireStateChanged(Unknown Source)

at javax.swing.DefaultBoundedRangeModel.setRangeProperties(Unknown Source)

at javax.swing.DefaultBoundedRangeModel.setValueIsAdjusting(Unknown Source)

at javax.swing.JSlider.setValueIsAdjusting(Unknown Source)

at javax.swing.plaf.basic.BasicSliderUI$TrackListener.mouseReleased(Unknown Source)

at com.sun.java.swing.plaf.windows.WindowsSliderUI$WindowsTrackListener.mouseReleased(Unknown Source)

at java.awt.Component.processMouseEvent(Unknown Source)

at javax.swing.JComponent.processMouseEvent(Unknown Source)

at java.awt.Component.processEvent(Unknown Source)

at java.awt.Container.processEvent(Unknown Source)

at java.awt.Component.dispatchEventImpl(Unknown Source)

at java.awt.Container.dispatchEventImpl(Unknown Source)

at java.awt.Component.dispatchEvent(Unknown Source)

at java.awt.LightweightDispatcher.retargetMouseEvent(Unknown Source)

at java.awt.LightweightDispatcher.processMouseEvent(Unknown Source)

at java.awt.LightweightDispatcher.dispatchEvent(Unknown Source)

at java.awt.Container.dispatchEventImpl(Unknown Source)

at java.awt.Window.dispatchEventImpl(Unknown Source)

at java.awt.Component.dispatchEvent(Unknown Source)

at java.awt.EventQueue.dispatchEventImpl(Unknown Source)

at java.awt.EventQueue.access$000(Unknown Source)

at java.awt.EventQueue$1.run(Unknown Source)

at java.awt.EventQueue$1.run(Unknown Source)

at java.security.AccessController.doPrivileged(Native Method)

at java.security.AccessControlContext$1.doIntersectionPrivilege(Unknown Source)

at java.security.AccessControlContext$1.doIntersectionPrivilege(Unknown Source)

at java.awt.EventQueue$2.run(Unknown Source)

at java.awt.EventQueue$2.run(Unknown Source)

at java.security.AccessControlContext$1.doIntersectionPrivilege(Unknown Source)

at java.awt.EventQueue.dispatchEvent(Unknown Source)

at java.awt.EventDispatchThread.pumpOneEventForFilters(Unknown Source)

at java.awt.EventDispatchThread.pumpEventsForFilter(Unknown Source)

at java.awt.EventDispatchThread.pumpEventsForHierarchy(Unknown Source)

at java.awt.EventDispatchThread.pumpEvents(Unknown Source)

at java.awt.EventDispatchThread.pumpEvents(Unknown Source)

at java.awt.EventDispatchThread.run(Unknown Source)

Starting FFT..

X-Spectrum Calculated

Y-Spectrum Calculated

Data set to SpectaPlot

Memory Usage #01 : 62 Mb

Inverse Fourier transform started...

Inverse Fourier transform. Done

Memory Usage #02 : 79 Mb

Inverse Fourier transform started...

Inverse Fourier transform. Done

Memory Usage #02 : 98 Mb

Inverse Fourier transform started...

Inverse Fourier transform. Done

Memory Usage #02 : 102 Mb

Exception in thread "AWT-EventQueue-0" java.lang.ArrayIndexOutOfBoundsException: 65536

at FFTool_M.SpectrumCalc.histogramY(SpectrumCalc.java:66)

at FFTool_M.DesktopApplication1View.spectrumPlot(DesktopApplication1View.java:856)

at FFTool_M.DesktopApplication1View.sampleSliderStateChanged(DesktopApplication1View.java:2725)

at FFTool_M.DesktopApplication1View.access$3200(DesktopApplication1View.java:30)

at FFTool_M.DesktopApplication1View$12.stateChanged(DesktopApplication1View.java:1341)

at javax.swing.JSlider.fireStateChanged(Unknown Source)

at javax.swing.JSlider$ModelListener.stateChanged(Unknown Source)

at javax.swing.DefaultBoundedRangeModel.fireStateChanged(Unknown Source)

at javax.swing.DefaultBoundedRangeModel.setRangeProperties(Unknown Source)

at javax.swing.DefaultBoundedRangeModel.setValueIsAdjusting(Unknown Source)

at javax.swing.JSlider.setValueIsAdjusting(Unknown Source)

at javax.swing.plaf.basic.BasicSliderUI$TrackListener.mouseDragged(Unknown Source)

at java.awt.Component.processMouseMotionEvent(Unknown Source)

at javax.swing.JComponent.processMouseMotionEvent(Unknown Source)

at java.awt.Component.processEvent(Unknown Source)

at java.awt.Container.processEvent(Unknown Source)

at java.awt.Component.dispatchEventImpl(Unknown Source)

at java.awt.Container.dispatchEventImpl(Unknown Source)

at java.awt.Component.dispatchEvent(Unknown Source)

at java.awt.LightweightDispatcher.retargetMouseEvent(Unknown Source)

at java.awt.LightweightDispatcher.processMouseEvent(Unknown Source)

at java.awt.LightweightDispatcher.dispatchEvent(Unknown Source)

at java.awt.Container.dispatchEventImpl(Unknown Source)

at java.awt.Window.dispatchEventImpl(Unknown Source)

at java.awt.Component.dispatchEvent(Unknown Source)

at java.awt.EventQueue.dispatchEventImpl(Unknown Source)

at java.awt.EventQueue.access$000(Unknown Source)

at java.awt.EventQueue$1.run(Unknown Source)

at java.awt.EventQueue$1.run(Unknown Source)

at java.security.AccessController.doPrivileged(Native Method)

at java.security.AccessControlContext$1.doIntersectionPrivilege(Unknown Source)

at java.security.AccessControlContext$1.doIntersectionPrivilege(Unknown Source)

at java.awt.EventQueue$2.run(Unknown Source)

at java.awt.EventQueue$2.run(Unknown Source)

at java.security.AccessController.doPrivileged(Native Method)

at java.security.AccessControlContext$1.doIntersectionPrivilege(Unknown Source)

at java.awt.EventQueue.dispatchEvent(Unknown Source)

at java.awt.EventDispatchThread.pumpOneEventForFilters(Unknown Source)

at java.awt.EventDispatchThread.pumpEventsForFilter(Unknown Source)

at java.awt.EventDispatchThread.pumpEventsForHierarchy(Unknown Source)

at java.awt.EventDispatchThread.pumpEvents(Unknown Source)

at java.awt.EventDispatchThread.pumpEvents(Unknown Source)

at java.awt.EventDispatchThread.run(Unknown Source)

/* END */

the french contest at school didn’t work due to tech issues and kept saying “you are not allowed to take this course” and now I’m just sitting in the gazebo outside the library bc it’s raining and existentially pondering if I am, in fact, allowed to take french

Today we successfully tested one of our RS-25 engines, four of which will help power our Space Launch System (SLS) to deep space destinations, like Mars! This 500-second engine test concludes a summer of successful hot fire testing for flight controllers at our Stennis Space Center near Bay St. Louis, Mississippi.

The controller serves as the “brain” of the engine, communicating with SLS flight computers to ensure engines are performing at needed levels. The test marked another step toward the nation’s return to human deep-space exploration missions.

We launched a series of summer tests with a second flight controller unit hot fire at the end of May, then followed up with three additional tests. The flight controller tests are critical preparation for upcoming SLS flights to deep space– the uncrewed Exploration Mission-1 (EM-1), which will serve as the first flight for the new rocket carrying an uncrewed Orion spacecraft, and EM-2, which will transport a crew of astronauts aboard the Orion spacecraft. 

Each SLS rocket is powered at launch by four RS-25 engines firing simultaneously and working in conjunction with a pair of solid rocket boosters. The engines generate a combined 2 million pounds of thrust at liftoff. With the boosters, total thrust at liftoff will exceed 8 million pounds!

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

Put to the Test: Orion Service Module

Blasted with sound, shaken for hours and pyro detonated, the Orion Service Module Completes Ground Tests at our Glenn Research Center

We recently completed a structural integrity evaluation on the test version of the Orion service module at our Plum Brook Station in Sandusky, Ohio. Designed to ensure the module can withstand launch atop the Space Launch System (SLS) rocket, the battery of tests was conducted in stages over a 16-month period.

The 13-ton European service module will power, propel and cool Orion, while supplying vital oxygen and water to its crew during future missions.

The Powerhouse: Space Launch System and Orion

Our Space Launch System is an advanced launch vehicle that will usher in a new era of human exploration beyond Earth’s orbit. SLS, with its unparalleled power and capabilities, will launch missions to explore deep-space destinations aboard our Orion spacecraft.

What is Orion? Named after one of the largest constellations in the night sky and drawing from more than 50 years of spaceflight research and development, the Orion spacecraft will be the safest, most advanced spacecraft ever built. It will be flexible and capable enough to take astronauts to a variety of deep destinations, including Mars.

Welcome to the Buckeye State

In November 2015, the full-sized test version of the Orion service module arrived at Cleveland Hopkins Airport aboard an Antonov AN-124. After being unloaded from one of the world’s largest transport aircraft, the module was shipped more than 50 miles by truck to Plum Brook for testing.

Spread Your Wings

The first step of the service module’s ground test journey at Plum Brook’s Space Power Facility, saw one of its 24-foot solar array wings deployed to verify operation of the power system. The test confirmed the array extended and locked into place, and all of the wing mechanisms functioned properly.

Can You Hear SLS Now?

The SLS will produce a tremendous amount of noise as it launches and climbs through our atmosphere. In fact, we’re projecting the rocket could produce up to 180 decibels, which is louder than 20 jet engines operating at the same time.

While at the Reverberant Acoustic Test Facility, the service module was hit with more than 150 decibels and 20-10,000 hertz of sound pressure. Microphones were placed inside the test environment to confirm it matched the expected acoustic environment during launch.

After being blasted by sound, it was time to rock the service module, literally.

Shake Without the Bake 

Launching atop the most powerful rocket ever built – we’re talking more than eight million pounds of thrust – will subject Orion to stresses never before experienced in spaceflight.

To ensure the launch doesn’t damage any vital equipment, the engineering team utilized the world’s most powerful vibration table to perform nearly 100 different tests, ranging from 2.5 Hz to 100 Hz, on the module in the summer of 2016. 

Gotta Keep ‘Em Separated

The team then moved the Orion test article from the vibration table into the high bay for pyroshock tests, which simulated the shock the service module will experience as it separates from the SLS during launch.

Following the sound, vibration and separation tests, a second solar array wing deployment was conducted to ensure the wing continued to properly unfurl and function.

Headed South for the Summer

The ground test phase was another crucial step toward the eventual launch of Exploration Mission-1, as it validated extensive design prep and computer modeling, and verified the spacecraft met our safety and flight requirements.

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

Splish, Splash, Orion Takes a Bath

The Orion spacecraft is a capsule built to take humans farther than they’ve ever gone before, to deep space and eventually Mars. But before astronauts travel inside this new vehicle, we have to perform tests to ensure their safety.

One of these tests that we’ll talk about today simulates an ocean splashdown. Water impact testing helps us evaluate how Orion may behave when landing under its parachutes in different wind conditions and wave heights. The spacecraft has been undergoing a series of these tests at our Langley Research Center’s Hydro Impact Basin…which is our fancy way of saying pool.

The test capsule, coupled with the heat shield from Orion’s first spaceflight, swung like a pendulum into Langley’s 20-foot-deep basin on Aug. 25.

Inside the capsule were two test dummies – one representing a 105-pound woman and the other, a 220-pound man — each wearing spacesuits equipped with sensors. These sensors will provide critical data that will help us understand the forces crew members could experience when they splash down in the ocean.

This specific drop was the ninth in a series of 10 tests taking place at Langley’s Landing and Impact Research Facility. It was designed to simulate one of the Orion spacecraft’s most stressful landing scenarios, a case where one of the capsule’s three main parachutes fails to deploy. That would cause Orion to approach its planned water landing faster than normal and at an undesirable angle.

Under ideal conditions, the Orion capsule would slice into the water of the Pacific Ocean traveling about 17 miles per hour. This test had it hitting the pool at about 20 mph, and in a lateral orientation. Instead of being pushed down into their seats, astronauts in this scenario would splashdown to the side.

With this test’s success and one final drop in this series scheduled for mid-September, researchers have accumulated a lot of important information.

To find out more, visit nasa.gov or follow @nasaorion​ on Tumblr, Twitter and Facebook.

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

Four Cool Facts About Our New Rocket’s Booster Test Firing

The countdown to our last full-scale test firing of NASA’s Space Launch System (SLS) solid rocket boosters has begun (mark your calendars: June 28, 8:05 a.m. MDT [local time] 10:05 a.m. EDT). SLS is NASA’s new rocket that can go to deep space destinations, and this test is one more step on our Journey to Mars. This test will be broadcast live on NASA TV and our Facebook page. For those watching at home or work, here are four cool things that might not be so obvious on the screen.

1. So Hot, It Turns Sand Into Glass

With expanding gases and flames exiting the nozzle at speeds in excess of Mach 3 and temperatures reaching 3,700 degrees Fahrenheit, say goodbye to some of the sand at Orbital ATK’s test facility in the Utah desert because after the test, the sand at the aft, or rear, end of the booster motor will be glass.

2. This Motor’s Chill

This motor has been chilling — literally, down to 40 degrees — since the first week in May in Orbital ATK’s “booster house,” a special building on rails that moves to enclose the booster and rolls back so the motor can be test-fired. Even though SLS will launch from the normally balmy Kennedy Space Center in Florida, temperatures can vary there and engineers need to be sure the booster will perform as expected whether the propellant inside the motor is 40 degrees or 90 degrees (the temperature of the propellant during the first full-scale test, Qualification Motor 1 or QM-1).

3. This Booster’s on Lockdown

If you happen to be near Promontory, Utah, on June 28, you can view the test for yourself in the public viewing area off State Route 83. And don’t worry, this booster’s not going anywhere — engineers have it locked down. The motor is held securely in place by Orbital ATK’s T-97 test stand.  During the test, the motor will push against a forward thrust block with more than three million pounds of force. Holding down the rocket motor is more than 13 million pounds of concrete — most of which is underground. The test stand contains a system of load cells that enable engineers to measure the thrust the motor produces and verify their predictions.

4. Next Time, It’s For Real

These solid rocket boosters are the largest and most powerful ever built for flight. They’ve been tested and retested in both full-scale and smaller subsystem-level tests, and vital parts like the nozzle, insulation and avionics control systems have been upgraded and revamped. Most of this work was necessary because, plainly put, SLS needs bigger boosters. Bigger boosters mean bolder missions – like around the moon during the first integrated mission of SLS and Orion. So the next time we see these solid rocket motors fire, they will be propelling SLS off the launch pad at Kennedy Space Center and on its first flight with NASA’s Orion spacecraft. For real.