Originally posted by DamborgsonYouTube video
H1, the time has come for you to face Starscream in mortal combat.
Originally posted by DamborgsonYouTube video
H1, the time has come for you to face Starscream in mortal combat.
Originally posted by h1a8
Real Experiment
Set up a grain of salt on a glass surface (coefficient of static friction is less than 1) from 100 meters away from striking a steel skillet pan with a hammer holding near the top with punch like motion. Place the salt 1cm from edge (measured with the accuracy of + or -.1mm). I provided an impact force to the steel and see if the collateral force exceeds that of the frictional force on the salt grain.
If the salt grain doesn't move then the collateral force is less than the frictional force.mass of grain of salt = .3mg =3 x 10^(-7) kg
velocity of punch* = 50mi/hr =22.35m/s
mass of hammer/hand system = .6kg
impact distance of steel pan* < 1cm =.01mWork= Impact Force x Impact Distance = 1/2 mass x velocity^2
So dividing by Impact Distance we get
Impact Force = 1/2 mass x velocity^2 / impact distance
>1/2(.6kg)(22.35m/s)^2/.01m
=14,236NForce required to move grain of salt (overcome static friction)
= mass of salt x g x coefficient of static friction.
< 3x10^(-7)kg x 9.8m/s^2 x 1
=2.94 x 10^(-6)NThe ratio of forces is 14236/2.94 x 10^-6 =4.84 x 10^9 (hence billions)
Since the grain of salt didn't move then friction force exceeded collateral force. So since impact force is more than billions of times more than friction force then so it is also more than billions times more than collateral force.Notes: The velocity of punch is more than 50mph. I have casually been clocked at 60mph throwing punches and I swung with all my might here. I can also throw a baseball at 85mph or more. Impact distance of steel was very small, much less than 1cm. These things make the Impact force even larger than what is calculated.
I didnt even need to read this post. i just saw all these ****ing numbers and started laughing.
lol you guys are crazy. Maybe I invented a new punch. It isn't practical in real fighting since it telegraphs a lot. But it sure delivers great end of of motion hand speed.
3.5 tons? Well Dragon got up to 2150psi. This is about a ton per square inch. Since his fist area is more than 5 square inches then he's over 5 tons.
Originally posted by Silent Master
Prove it.
and didn't i reply
I did
P1: I can throw a baseball in the 80s mph.
P2: A baseball can't travel faster than the hand that throws it.
P3: I can generate hand speeds in the 80s with throwing motion (P1 and P2)
C: I can throw non traditional throwing motion punches more than 60mph (P1, P2, and P3).
Originally posted by cdtmI could throw that fast when I played college baseball (last played a few years ago). I played 3rd base mostly. 80-85mph is not really that fast. Most of my teamates could throw about the same, even the pitchers. Only one member on our team threw 90 or more though. My pitching in high school was never really good (too many walks). I threw high 70s then which is ok and not great. Hell I threw in 60 or more when I was 12.
Or that he could pitch 85 mph or more.. 🙄
Most division I baseball players can throw over 80mph with no problems.
Originally posted by DarkSaint85h1a8 happened brah. He soloed the thread.
WTF happened here?RKT wins.
Incidentally, if throwing is a guide to punching speed, am sure Mjolnir has travelled at multiple speeds of light. After being thrown by Thor, let alone RKT.
Thor wins via speedblitzing, as each of his punches travels at faster than lightspeeds.