Tai Chi Nei Gong wrote:An amazing clip demonstrating the incredible internal power of Tai Chi Fa Jin, on a steel ball weighing a 100 pounds. Lao Sho Damon Bramich demonstrates Hwa and Fa with explosive Fa Jin.
True Softness overcomes true hardness
Tai Chi Nei Gong wrote:An amazing clip demonstrating the incredible internal power of Tai Chi Fa Jin, on a steel ball weighing a 100 pounds. Lao Sho Damon Bramich demonstrates Hwa and Fa with explosive Fa Jin.
True Softness overcomes true hardness
The amount of inertial force required to stop a moving object will be exactly equal to the amount of inertial force that set it into motion in the first place. ... If the object is not moving, the amount of inertial force required to move it is generally equal to the mass of the object.
everything wrote:what do you think of this?
northern_mantis wrote:Isn't this what people constantly ask for, to see what Tai Chi looks like in application. Reminds me of the that scene in Indiana Jones and the Last Crusade when everybody thinks the holy grail is some golden goblet when really it's just a humble cup of a carpenter.
The amount of inertial force required to stop a moving object will be exactly equal to the amount of inertial force that set it into motion in the first place. ... If the object is not moving, the amount of inertial force required to move it is generally equal to the mass of the object.
windwalker wrote:The amount of inertial force required to stop a moving object will be exactly equal to the amount of inertial force that set it into motion in the first place. ... If the object is not moving, the amount of inertial force required to move it is generally equal to the mass of the object.
1. By swinging the object back and forth his determining the amount of inertia he has to deal with.
2. He touches the ball with his fingers first, very close to its own equilibrium point or even a little past it. This means it has lost much of the inertial force and is already starting to swing back the other way.
3. If he was forward of the objects equilibrium point it would not be able to do what is shown.
4. The ball is suspended and already in motion with the inertial force that he supplies.
Anyone who has kids and has pushed them on a swing can easily do what a shown. Of course the kids might not like it.
A better demo, more clear, would have been to come up on the object at a standstill and then send it out at high speed. As shown in the ph clip it does not transfer over to what he does, he is double weighted.
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