To avoid it, you can execute the "Anti-G Straining Maneuver," or AGSM. GLOC is not necessarily inevitable, though. Obviously, for a fighter pilot, this is no bueno. That, in turn, can cause grey out (loss of color in vision), tunnel vision (loss of peripheral vision), blackout (total loss of vision while remaining conscious), and even "G-induced loss of consciousness," or GLOC. But when fighter pilots like the guy in this video make sudden and sharp maneuvers, they can experience g-forces strong enough to prevent their blood from pumping up toward their brains. The driver who set the world record quarter mile time in Top Fuel drag racing experienced 4.2g, and that was probably only at the zenith of acceleration. As a point of reference / a relatively approachable example, think about how insane the acceleration of a drag-racing car is. So what's going on in this video? Well, some activities involve considerably more g-force than the average person is ever likely to experience in regular life, especially for any sustained period of time. In very simplified terms, it's a measurement of that pull that you feel, which is caused by the combination of gravity, acceleration, and mass. It's almost like you become heavier, but only in one direction. That pulls your body more forcefully to the left, doesn't it? Now imagine taking the sharper turn at twice the speed you did last time. Now imagine taking a much sharper turn at the same speed. Think about how it pulls your body toward left side of the car, but only slightly. If not, imagine you're in a car making a long, sweeping, right-hand turn, at a relatively low speed. If you already know what g-force is, you can skip this paragraph. He makes it to 9 g for sure □Įdit 2: I've noticed a few comments from people who aren't exactly sure what's going on in these videos, or why they're impressive, so here's some simplified background. I don’t recall this guy getting to 9 g, but he’s still an absolute animal.Įdit: Nevermind. Would you prefer this same subreddit, but only images? Check out /r/DTIpics! We take all the picture submissions from the main sub and post them there!Ī place to post the most interesting stuff on the web!.Please familiarize yourself with the official rules and reddiquette.We are active and will respond as soon as possible. Message the moderators if you have questions or concerns.If we do not believe it to be interesting, or think it is spam, we will remove it. Posts are at the discretion of the moderators. Posts that make claims must be sourced in comments No screenshots, memes, infographics, or posts with text This subreddit is for things that are interesting and cool However, navies and industry are assessing training needs for the systems and asking how technology can enhance the process.Only "Damnthatsinteresting" content. Military USV and UUV markets are still at a relatively early stage of development. But troops’ time on range in future seems likely to be a more hybrid affair that exploits a number of different technologies. The importance of g-force training must therefore be appreciated to ensure aircrew are ready for next-generation fighters.Īs armed forces’ budgets rise again, live training is on the increase. The technology pilots use has greatly advanced over time, but the type of effects they experience has largely remained the same. Shephard looks at what the latest laser systems are capable of and some future alternatives. Laser-based Tactical Engagement Simulation Systems have been around for several decades, but some users are questioning whether they provide sufficiently realistic training. Shephard takes a closer look at what training technologies are being used in the land domain to keep platforms on the road. As equipment costs rise and platforms become more sophisticated, maintaining high availability is a vital component of military preparedness. Maintenance training has never been so important. In particular, air force training comes at a premium, so the right balance of tools and techniques is crucial for cost-effectiveness. The increasing complexity of emerging technologies is placing pressure on the optimisation of military training.
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