F = ma (Force = mass times acceleration)
a = v1- v0 (velocity - initial velocity)
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time time
Two boxers (Rocky and Drago). Rocky has smaller hands so his mass (m) is smaller than Drago's.
Lets assume their Force (F) are the exact same. With their difference in mass (m), it would mean that Rocky's acceleration with his punch is faster than Drago's to produce the same power. assuming that both are starting in a neutral position and throwing that punch, then the initial velocity (v0) is zero. So the acceleration is simply:
a = v / t (acceleration = velocity / time)
For Rocky's acceleration to be faster, he would have to increase his final velocity impact or decrease his time to throw that punch (or do both) in comparison to Drago.
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So what? Basically what you all already know. Smaller hands/arms would need to be thrown faster (either in speed or shorter in time) to generate the same power as bigger hands/arms. If someone with bigger hands can throw the same punch with a faster velocity and/or in a shorter time, then that punch would be more powerful. This is assuming each boxer's reach is the exact same by the way. If it's different then calculating their power takes a bit more com*****g because you have to take into account the distance the fist has to travel for each boxer.
We aren't also taking into account energy dispersion either. bigger hands would disperse the energy in a larger area (let's say the bigger hand connects onto 3 ribs whereas the smaller hand connects onto 2 ribs).
Personally, I would think smaller hands would be slightly better IMO (probably cause i have small hands too lol). If you connect to a smaller area with the same force, you would produce more damage in that small area. The same force has a much better chance of breaking a rib if you hit two of them as oppose to 3 ribs. You'd need better accuracy though with smaller hands. Then again, the the size is really neglible anyway. Aren't you only suppose to connect with the pointing and middle finger knuckles most of the time when you punch anyway?
Hope I didn't confuse anyone here. I am an engineer. LOL.
a = v1- v0 (velocity - initial velocity)
------- ----------------------
time time
Two boxers (Rocky and Drago). Rocky has smaller hands so his mass (m) is smaller than Drago's.
Lets assume their Force (F) are the exact same. With their difference in mass (m), it would mean that Rocky's acceleration with his punch is faster than Drago's to produce the same power. assuming that both are starting in a neutral position and throwing that punch, then the initial velocity (v0) is zero. So the acceleration is simply:
a = v / t (acceleration = velocity / time)
For Rocky's acceleration to be faster, he would have to increase his final velocity impact or decrease his time to throw that punch (or do both) in comparison to Drago.
----
So what? Basically what you all already know. Smaller hands/arms would need to be thrown faster (either in speed or shorter in time) to generate the same power as bigger hands/arms. If someone with bigger hands can throw the same punch with a faster velocity and/or in a shorter time, then that punch would be more powerful. This is assuming each boxer's reach is the exact same by the way. If it's different then calculating their power takes a bit more com*****g because you have to take into account the distance the fist has to travel for each boxer.
We aren't also taking into account energy dispersion either. bigger hands would disperse the energy in a larger area (let's say the bigger hand connects onto 3 ribs whereas the smaller hand connects onto 2 ribs).
Personally, I would think smaller hands would be slightly better IMO (probably cause i have small hands too lol). If you connect to a smaller area with the same force, you would produce more damage in that small area. The same force has a much better chance of breaking a rib if you hit two of them as oppose to 3 ribs. You'd need better accuracy though with smaller hands. Then again, the the size is really neglible anyway. Aren't you only suppose to connect with the pointing and middle finger knuckles most of the time when you punch anyway?
Hope I didn't confuse anyone here. I am an engineer. LOL.
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