In the video, the speed and quality of the inflation of each PC is not random, it is a direct result of the packing method and PC type. There are three different types of PC, all size Slider- AP is not recommended the accomplishing of leaps with the small delay: Choose a PC that is symmetrically constructed, stable when deployed, and appropriate in size.
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Have you tried the full version of Weird Park: The graphs show that stability was comparable across three types with the highest average drag force exerted by the Snatch. Across all PC types tested, packing method was the most major factor in inflation speed.
Because a Snatch or any toroidal arc PC design contains 3D shaping, it will not lay completely flat. Inexperienced character can obtain significant injuries, if rigid discovery with the delay of seconds tests! Watch this space, our sport is evolving.
We have also seen that there are significant variations in stability of double-disc designs. Standard Double Disc designs There has been some debate h whether a toroidal arc PC, like the Snatch, pulls with the same force as a traditional PC.
Deploying in a massive flare at an extremely high AoA and low airspeed is possible and can work fine, depending on your altitude, PC type, and bridle length. When the PC is upstream of a significant amount of bridle, it increases the px that it will interact with the loops of bridle waiting for it. And some videos with neat images. Weak Throw No major surprises here. Stability, as we know, is a crucial factor in PC performance.
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The following video and graph show several PCs tested at ascending airspeeds. But, there is jumpig a handle, there is still a bridle, and those things can still interact.
Enjoy better graphics and more levels. Most people measure from pin to PC, some define length from loop to loop.
Again, across all types of PCs, the evidence points clearly to packing method being the single most important factor for speed of inflation at this airspeed. More drag force equals more snatch force. One important takeaway from our testing is that Snatch force is caused by total drag force of the pilot chute.
There has been some debate about whether a toroidal arc PC, like the Snatch, pulls with the same force as a traditional PC.
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We'll email you a temporary password. One toroidal arc Snatch design, and two traditional designs. A very crude description would be to say that the general tendency is for air to slip off of the bottom surface and roll onto the top surface in a rotating pattern. Many common packing methods for second delays are poorly indicated, and need to be reconsidered by users. It is necessary for our menu and ordering system. More testing is needed. The pilot chute sizes, bridle lengths, and pilot chute type materials, venting, shape, handle type, etc that we use are not random — these are decisions we have arrived at after many years in the field and a lot of video analysis and aggregated feedback from experienced pilots.
The varying AoA and the movement of the PC in the wake seems to have muddled the data. Check us out on: In the video, the speed and quality of the inflation of each PC is not random, it is a direct result of the packing method and PC type. PCs packed in the standard BOC deployment method jujping significantly longer to inflate at this one-second-equivalent airspeed.
During our careers as BASE jumpers, we have developed preferences and techniques based on what we feel works best for us. Your username will be displayed on your review. The stability is a result of the design, and the 3D shaping of the panels overpowers all other factors. A far more important factor seems to be how well the PC is deployed thrown.
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