2021.12.05 23:37 Dizzy_Dust_7510 YAML Critical Slots and "Arms"
YAML is awesome and adds a layer that was definitely missing. But, ever since they added melee into the game I can't fit AC/20s in the arms of mechs that should definitely have an AC/20 because the hand or arm takes up a critical slot.
Has anyone figured out a work around to this?
submitted by Dizzy_Dust_7510 to Mechwarrior5 [link] [comments]
2021.12.05 23:37 Negative1525 Spider bite
Dumb and really pointless question I know, but was there any reason why Peter was bitten on the back of the neck instead of the hand like he usually is? I know this probably doesn’t matter at all as it changes literally nothing. It’s just something I’ve always been weirdly curious about.
submitted by Negative1525 to TheAmazingSpiderMan [link] [comments]
2021.12.05 23:37 quirktheory Easyeffects service
Hello voidlings. I was trying to write a quick runit service for easyeffects but I seem to be stumbling a bit. from the easyeffects wiki:
--gapplication-service Run as a background service. When started this way EasyEffects will not show its window and will switch on all applications by default. In case you want to see the window to change a parameter just execute EasyEffects again without this option or click on its launcher icon. Do that while the previous instance is running. When working as a service EasyEffects will keep running when you close its windowTherefore I created a run file with the line:
and set its permissions to 755. If I run it with
#!/bin/sh exec easyeffects --gapplication-service > dev/null 2>&1
./runeverything works great and I can here the noise cancellation take effect, but if I link it to
sv start easyeffectsIt fails.
2021.12.05 23:37 mizuti15 Lost, Broken, Beat Down
An album that I listen to when I’m feeling these things is Diamonds by Hawk Nelson. The first song is about the love of God and how he doesn’t want you to be the best thing in the world and just wants the you that is there to come to Him.
submitted by mizuti15 to Christians [link] [comments]
2021.12.05 23:37 btwhugo Homie copped this cart In a illegal state and said its mango Gelato but if you zoom in its says "mango gelate" thoughts?
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2021.12.05 23:37 TastyCommunity1 I feel kinda bad for him
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2021.12.05 23:37 Dedreq123 Öppert vo Chur?😁
2021.12.05 23:37 AkumaGojira What time does UGR start for you???
2021.12.05 23:37 StopDropAndRollNeddy Seriously missing the frequent shards/eggs, new levels added soon orrrrr??
|submitted by StopDropAndRollNeddy to Archero [link] [comments]|
2021.12.05 23:37 Such-Adhesiveness-71 WB Reshiram raid 4730 7950 7903 be online
2021.12.05 23:37 Claeys19 Going into next season, who would you keep?
2021.12.05 23:37 Volt_Marine Everyone’s doing this, so I might as well join. Day 1 of building my new space station to the replace the one I’m going to deorbit on the 10th.
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2021.12.05 23:37 webserial_trash Tumblr is a goldmine
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2021.12.05 23:37 NOTINLOWERCASE Satanic black magic!
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2021.12.05 23:37 GuidaDude [NA] [TIER 4] We have all just need support
2021.12.05 23:37 DeathThaKid13 Pierre Bourne, punk artist and producer
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2021.12.05 23:37 AC-RogueOne What marine reptiles do you think should be added into the game next?
2021.12.05 23:37 haphazard_engineer The final result of my M&P 15 build (swipe for “before” pic)
|submitted by haphazard_engineer to SmithAndWesson [link] [comments]|
2021.12.05 23:37 Youramelt 2K potentially buying the fifa license ?
What’s everyone’s thought on this ? I’ve also played NBA 2K and the career mode equivalent is much more detailed in every way, Great gameplay/graphics and a big part of it is community created you can download for example people have made full realistic draft classes for several years. This could be a good thing for kit creations. I think it could be great and the stats detailed is brilliant
Anyone know how the game will be effected ?
submitted by Youramelt to FifaCareers [link] [comments]
2021.12.05 23:37 peanutbutteryummmm [S][USA-ID] Sony FE 28mm F2 w/ Original Box and Hood + UV Filter
Hello there! I’m selling my Sony FE 28mm F2.8 with the original box and hood. The lens itself is in perfect working condition with mild signs of use. I do not use it that often, hence it is in great shape. The box itself was smushed during a move, although the lens was not inside, as I always make sure to protect my lenses. I’m also including a UV filter for anyone that wants it.
For some reason Reddit is not allowing me to post a timestamp in link form (it’s saying that it’s not allowed in this community). I’ve posted the link below to the Imgur images for the timestamp/proof, and will update this post with a better way to access the link once I solve the issues with reddit. Thanks for looking!
submitted by peanutbutteryummmm to photomarket [link] [comments]
2021.12.05 23:37 Spicy-Elephant I made a nier automata controller for a frat friend
2021.12.05 23:37 gussurii Chapter 3
2021.12.05 23:37 joctadeazevedo CD, give us the option to choose as many companions as we want on the missions (0 to 3)! This would give us the ability to recreate cool scenarios, like for example:
|submitted by joctadeazevedo to PlayAvengers [link] [comments]|
2021.12.05 23:37 Over-Bunch-5658 [ HS ELA] I need help on my ELA homework. I need to find 3 tone words and the controlling idea to this article. It’s called Water on Mars: Exploration & Evidence.
Liquid water may still flow on Mars, but that doesn’t mean it’s easy to spot. The search for water on the Red Planet has taken more than 15 years to turn up definitive signs that liquid flows on the surface today. In the past, however, rivers and oceans may have covered the land. Where did all of the liquid water go? Why? How much of it still remains? Observations of the Red Planet indicate that rivers and oceans may have been prominent features in its early history. Billions of years ago, Mars was a warm and wet world that could have supported microbial life in some regions. But the planet is smaller than Earth, with less gravity and a thinner atmosphere. Over time, as liquid water evaporated, more and more of it escaped into space, allowing less to fall back to the surface of the planet. Where is the water today? Liquid water appears to flow from some steep, relatively warm slopes on the Martian surface. Features known as recurring slope lineae (RSL) were first identified in 2011in images taken by the High Resolution Imaging Science Experiment (HiRISE) camera aboard the Mars Reconnaissance Orbiter (MRO). The dark streaks, which appear seasonally, were confirmed to be signs of salty water running on the surface of the planet. “If this is correct, then RSL on Mars may represent the surface expression of a far more significant ongoing drainage system on steep slopes in the mid-latitudes,” a research team member told Space.com in 2012. In 2015, spectral analysis of RSL led scientists to conclude they are caused by salty liquid water. [Related: Salty Water Flows on Mars Today, Boosting Odds for Life] “The detection of hydrated salts on these slopes means that water plays a vital role in the formation of these streaks,” the study’s lead author, Lujendra Ojha, of the Georgia Institute of Technology in Atlanta, said in a statement. Vast deposits of water appear to be trapped within the ice caps at the north and south poles of the planet. Each summer, as temperatures increase, the caps shrink slightly as their contents skip straight from solid to gas form, but in the winter, cooler temperatures cause them to grow to latitudes as low as 45 degrees, or halfway to the equator. The caps are an average of 2 miles (3 kilometers) thick and, if completely melted, could cover the Martian surface with about 18 feet (5.6 meters) of water. Frozen water also lies beneath the surface. Scientists discovered a slab of ice as large as California and Texas combined in the region between the equator and north pole of the Red Planet. The presence of subsurface water has long been suspected but required the appearance of strange layered craters to confirm. Other regions of the planet may contain frozen water, as well. Some high-latitude regions seem to boast patterned ground-shapes that may have formed as permafrost in the soil freezes and thaws over time. The European Space Agency’s Mars Express spacecraft captured images of sheets of ice in the cooler, shadowed bottoms of craters, which suggests that liquid water can pool under appropriate conditions. Other craters identified by NASA’s Mars Reconnaissance Orbiter show similar pooling. Evidence for water on Mars first came to light in 2000, with the appearance of gullies that suggested a liquid origin. Their formation has been hotly debated over the ensuing years. But not everyone thinks that Mars contains water today. New research reveals that RSL may actually have formed by granular flows formed by the movement of sand and dust. “We’ve thought of RSL as possible liquid water flows, but the slopes are more like what we expect for dry sand,” lead author Colin Dundas said in a statement. “This new understanding of RLS supports other evidence that shows that Mars today is very dry.” That idea may have been washed away by the recent discovery of a possible subsurface lake near the Martian South Pole. An underground lake? Researchers made a big splash when they announced that Mars might be hiding a lake beneath its southern pole. The European Mars Express spacecraft used its Mars Advanced Radar for Subsurface and Ionosphere Sounding (MARSIS) to detect the proposed water. Ground-penetrating radar sent radar pulses to the surface, then timed how long it took for them to be reflected. The properties of the subsurface layers affect how long it takes for the beams to return. MARSIS’ investigation revealed that the Martian south pole is composed of multiple layers of ice and dust to a depth of about nearly 1 mile (1.5 kilometers) spread over a 124-mile-wide (200 km) region. “This subsurface anomaly on Mars has radar properties matching water or water-rich sediments,” Roberto Orosei, principal investigator of the MARSIS experiment and lead author of the new research, said in a statement. MARSIS also revealed the presence of a subsurface lake among the pockets. According to the radar echoes, the lake is no more than 12.5 miles (20 km) across, buried nearly a mile beneath the surface. The scientists aren’t certain of the lake’s depth, but they have confirmed that it is at least 3 feet (1 meter) deep. According to the researchers, the lake must have salt to keep from freezing. “This is just one small study area; it is an exciting prospect to think there could be more of these underground pockets of water elsewhere, yet to be discovered,” Orosei said. Not all researchers are as certain about the presence of liquid water. “I think it’s a very, very persuasive argument, but it’s not a conclusive or definitive argument,” Steve Clifford, a Mars researcher at the Planetary Science Institute in Arizona, told Space.com. “There’s always the possibility that conditions that we haven’t foreseen exist at the base of the cap and are responsible for this bright reflection.” More than three decades ago, Clifford proposed that Mars could harbor liquid water beneath its polar caps in the same way that Earth does. On Earth, lakes beneath the Antarctic and Greenland ice sheets are created when heat from within the planets melt the glaciers in patches. Clifford told Space.com that a similar scenario could happen beneath the Martian polar ice caps. “The bright spot seen in the MARSIS data is an unusual feature and extremely intriguing,” Jim Green, NASA’s chief scientist, said in a statement. “It definitely warrants further study. Additional lines of evidence should be pursued to test the interpretation.” “We hope to use other instruments to study it further in the future,” Green said. Searching for an oasis When Mariner 9 became the first craft to orbit another planet in 1971, the photographs it returned of dry river beds and canyons seemed to indicate that water had once existed on the Martian surface. Images from the Viking orbiters only strengthened the idea that many of the landforms may have been created by running water. Data from the Viking landers pointed to the presence of water beneath the surface, but the experiments were deemed inconclusive. [Mars Explored: Landers and Rovers Since 1971 (Infographic)] The early ‘90s kicked off a slew of Mars missions. Scientists were flooded with a wealth of information about Mars. Three NASA orbiters and one sent by the European Space Agency studied the planet from above, mapping the surface and analyzing the minerals below. Some detected the presence of minerals, indicating the presence of water. Other data measured enough subsurface ice to fill Lake Michigan twice. They found evidence that ancient hot springs once existed on the surface and sustained precipitation once fell in some areas. And they found patches of ice within some of the deeper craters. Impact craters offer a view of the interior of the red planet. Using the ESA’s Mars Express and NASA’s Mars Reconnaissance Orbiter, scientists were able to study rocks ejected from the planet’s interior, finding minerals that suggested the presence of water. “Water circulation occurred several kilometers deep in the crust some 3.7 billion years ago,” Nicolas Mangold, of the University of Nantes in France, said in a statement. But orbiters weren’t the only objects launched toward Mars. NASA’s Curiosity rover is the fifth robot to land on the surface of the Red Planet in the last 15 years. Pathfinder, Phoenix, Spirit and Opportunity all took detailed measurements of the planet; all but Phoenix traveled across the surface collecting a treasure trove of information. The probes dug into the ground, examining rocks and performing experiments. In 2008, Phoenix turned up small chunks of bright material that disappeared after four days, leading scientists to surmise that they were pieces of water ice. The lander went on to detect water vapor in a sample it collected and analyzed, confirming the presence of frozen water on the red planet. Spirit and Opportunity, the twin rovers, found traces of water enclosed in rock. In a shining example of a problem becoming a solution, a broken wheel on Spirit scraped into the top of the Martian surface, revealing a layer beneath rich in silica that had most likely formed in the presence of water. Curiosity has found yet more evidence of water flowing on ancient Mars. The 1-ton rover rolled through an ancient stream bed shortly after touching down in August 2012, and it has examined a number of rocks that were exposed to liquid water billions of years ago. Mars missions aren’t the only way to search for water on Mars. Scientists studying rocks ejected from the Red Planet found signs that water lay beneath the surface in the past. “While robotic missions to Mars continue to shed light on the planet’s history, the only samples from Mars available for study on Earth are Martian meteorites,” lead author Lauren White, of the JPL, said in a statement. “On Earth, we can utilize multiple analytical techniques to take a more in-depth look at meteorites and shed light on the history of Mars.” Historical landforms In addition to examining the relatively recent (geologically speaking) presence of water, the various missions have also studied the surface of the planet in a historical context. The river beds of Mars don’t run wet today, but scientists can study them to learn more about the evolution of the planet. [Photos: The Search for Water on Mars] The flatter northern plains of Mars may once have hosted an ocean, or possibly, as the planet cycled through dry periods, two. The more recent body of water would likely have only been temporary, seeping into the ground, evaporating, or freezing in less than a million years, scientists say. Riverbeds and gullies indicate that water ran, at least briefly, across the surface of Mars. A hundred times more water may have flowed annually through a large channel system known as Marte Vallis than passes through the Mississippi River each year, according to estimates. The gullies themselves are smaller, likely forming during brief torrential rainstorms when fast-moving water could have carved them across the land. Curiosity found indications that at least one region of Mars, Mount Sharp, was built by sediments deposited in a lake bed millions of years ago, suggesting large pools existed on the planet for significant time periods. “If our hypothesis for Mount Sharp holds up, it challenges the notion that warm and wet conditions were transient, local, or only underground on Mars,” Curiosity deputy project scientist Ashwin Vasavada of NASA’s Jet Propulsion Laboratory (JPL) said in a statement. On Earth, the land around rivers and lakes is wetter, made up of mud and clays. Such deposits exist on Mars as well, trapping water and indicating where larger bodies may have once existed. Water on Mars may be doing something more than sitting pretty. A new study reveals that when the liquid boils, thanks to low pressures, it can make the sand levitate. “Sediment levitation must therefore be considered when evaluating the formation of recent and present-day Martian mass wasting features, as much less water may be required to form such features than previously thought,” the researchers wrote in their study, which was published in the journal Nature Communications. Liquid gold Water may seem like a very common element to those of us stuck on Earth, but it has great value. In addition to understanding how Mars may have changed and developed over time, scientists hope that finding water will help them to find something even more valuable — life, either past or present. Only Earth is known to host life, and life on our planet requires water. Though life could conceivably evolve without relying on this precious liquid, scientists can only work with what they know. Thus they hope that locating water on celestial bodies such as Mars will lead to finding evidence for life. With this in mind, NASA developed a strategy for exploring the Red Planet that takes as its mantra “follow the water.” Recent orbiters, landers and rovers sent to Mars were designed to search for water, rather than life, in the hopes of finding environments where life could have thrived. That has changed, however, with the flood of evidence these robots have returned. Curiosity determined that Mars could indeed have supported microbial life in the ancient past, and the next NASA rover — a car-size robot based heavily on Curiosity’s basic design — will blast off in 2020 to look for evidence of past Red Planet life.
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2021.12.05 23:37 beckeybro 3 Reasons why unicorns are manly