0:00:00.000,0:00:03.000
this is a dynamic climbing room one can

0:00:03.000,0:00:06.000
take hundreds of these massive Falls and

0:00:06.000,0:00:09.720
it will still provide a soft Landing for

0:00:09.720,0:00:11.580
the climber now if you would pull out

0:00:11.580,0:00:14.160
the decor strands take one of them and

0:00:14.160,0:00:17.160
untwist it and then dig even deeper and

0:00:17.160,0:00:19.380
try to separate the smallest part of the

0:00:19.380,0:00:21.480
Rope eventually you would get to a

0:00:21.480,0:00:23.880
single filament which is about 10 times

0:00:23.880,0:00:25.980
thinner than the human here and it's

0:00:25.980,0:00:28.199
kind of hard to see and during the fall

0:00:28.199,0:00:31.560
this filaments stretch but also they

0:00:31.560,0:00:33.780
slide past each other which creates

0:00:33.780,0:00:35.820
friction and this friction helps to

0:00:35.820,0:00:38.520
dampen the impact however if we would

0:00:38.520,0:00:41.160
make a rope wet water on the surface of

0:00:41.160,0:00:43.320
the filaments would act as a lubricant

0:00:43.320,0:00:45.600
this would allow the filaments to slide

0:00:45.600,0:00:48.000
easier past each other reducing the

0:00:48.000,0:00:50.579
dampening effect and potentially causing

0:00:50.579,0:00:53.039
harder catches for the climber now if

0:00:53.039,0:00:54.360
you want to see what happened when we

0:00:54.360,0:00:56.160
put this Theory to the test or learn

0:00:56.160,0:00:58.379
more about rope science check out my

0:00:58.379,0:01:01.579
latest video on YouTube