Всё бы ничего, но фигово, что хрен что поймёшь, не зная китайского. Everything's shown perfectly but the worst thing is that knowing no Chinese you won't understand a word!
If this is a typical example of advanced Chinese engineering, I don't fear China any longer. The knot at 0:38 urges you to handle long lines (or if meant to be made of short ropes, what is the purpose?), the one at 1:51 simply won't hold, and that nonsense knot with those bottles is a waste of rope and time. Didnt watch the rest ...
Maybe I was somewhat overhasty. What's in a name? Check it out yourself at animatedknots.com. I tested it immediately with a thin rope on a smooth wooden bar with a relatively big diameter. It didn't get tight. It untied itself when the rope released traction or moved around the bar (or the bar moved inside the knot) It works better with smaller bar diameters and on rougher surfaces, though. Surface structure, compressibility, extensability, elasticity, bendability are properties of the rope, but as such have an impact on the knots. Try around with different materials, and u will see.
@@frankhusel5033 hard to research without a name. I was hoping to find information on it's strength and limitations. You addressed that in your comments. Thanks
Tks for sharing 👍👍
Genial mi hermano, saludos cordiales desde Huetamo Michoacán México.
Very good selection of useful uncommon knots. Thank You be Well and Good Journey. Richie
Excelentes nudos, saludos desde México
A true champion of knots, congratulations
Muito bom
Brasil.
Gostei das explicações.
Morrendo e aprendendo!
Its good content , we use a rigging job
Please add English caption. Also tell where these knots can be used.
ึึึึึึึคึึึึึึึึึึึึึคึึึึุุึึึึึึึุึึึึึึึึึึึึึึุึึึึึึึึึึึึึึึึึึึึึคึึึุึึึึึึึึึึึึึึคึึึึึึึึึึึุึึึ
First one sorta reminds me of a 'honda' on a twirling rope.
Сразу все побежали нитку в иголку всавлять))
Super.
Exelente forma de hacer nudos fue muy útil gracias
Muito bom 🇧🇷👍🤝
1:48
அருமை
Профессия узловязатель? Шучу
Ребята учите китайский язык с иголкой и ниткой убило
288ekflIJFD
Всю ладонь стёр, а нитка в ушко не залезла((( вот китайцы...
México!!
Não entendi nada
Всё бы ничего, но фигово, что хрен что поймёшь, не зная китайского.
Everything's shown perfectly but the worst thing is that knowing no Chinese you won't understand a word!
ничего необычного. просто в ролике есть несколько реплик на стандартные узлы
@@АндрейМакаров-я5у Да, конечно. Китайцы показывают несколько стандартных узлов.
Ты как нитку вдел, читер?
Muito bom seus nós.
0:35 kırk yıllık örgü ören ninem böyle iğne iplik geçiremedi.
Tabcin México
🐙
Too bad I don’t speak Mexican.
Too bad you don't realize 'Mexican' is not a language.
Os n' sao mostrados muito rapodos!
If this is a typical example of advanced Chinese engineering, I don't fear China any longer.
The knot at 0:38 urges you to handle long lines (or if meant to be made of short ropes, what is the purpose?), the one at 1:51 simply won't hold, and that nonsense knot with those bottles is a waste of rope and time.
Didnt watch the rest ...
What's the name of the knot at 1:51?
Maybe I was somewhat overhasty. What's in a name? Check it out yourself at animatedknots.com. I tested it immediately with a thin rope on a smooth wooden bar with a relatively big diameter. It didn't get tight. It untied itself when the rope released traction or moved around the bar (or the bar moved inside the knot) It works better with smaller bar diameters and on rougher surfaces, though.
Surface structure, compressibility, extensability, elasticity, bendability are properties of the rope, but as such have an impact on the knots.
Try around with different materials, and u will see.
@@frankhusel5033 hard to research without a name. I was hoping to find information on it's strength and limitations. You addressed that in your comments. Thanks
@@mariomcgraw2987 its a play on the Munter Hitch a repelling knot
ج
Нихо!
Круто
评论 29 LeeKeongAun5023
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令和のサクヤ+縄文時代のエキドナ VS 最難関 ruclips.net/video/K9v638P2O1E/видео.html
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