2006-09-13 06:44:58 · 12 answers · asked by Anonymous in Science & Mathematics ➔ Physics
Since, under Netwonian Physics, Force = Mass x Acceleration, if you can swing a heavier object at a constant speed it will apply more force.
In a baseball context, this means that the heavier the bat, the more potential force you have. But you have to be able to swing it fast enough to make a difference. If you can swing a lighter bat much faster than the heavier one, then you will still get the same net result. Also, the speed of the pitch will also make a difference (a change-up will not have the same change in acceleration as would a fastball).
2006-09-13 06:58:30 · answer #1 · answered by Anonymous · 0⤊ 0⤋
Yes it does. The kinetic energy (KE) of the bat partially transfers to the ball. The more KE the bat has, the better. But, KE is the product of mass and velocity^2. Note that velocity is squared, so it plays a bigger part in how much KE the bat has.
Do a quick thought experiment. If you swing with a broomstick, you can swing fast, but there is so little mass to work with, you just know the ball won't go very far. Keep this in mind; you probably aren't swinging a broomstick much faster than you can swing a bat!
Try again with a 100Lb steel pipe and you just can't swing it fast enough to hit the ball very far.
So the ideal bat for you is the heaviest bat you can swing at maybe 3/4 the speed you can swing a broomstick.
2006-09-16 15:53:13 · answer #2 · answered by Dan C 2 · 0⤊ 0⤋
It does, yet not as at as quickly as as you will possibly think of. right this is a physics-based answer. while the bat hits the ball, there is an replace of capability. A rigidity is impacted onto the ball. A rigidity is mass circumstances acceleration, so ideally, the heavier the bat, the greater rigidity ought to be impacted. different than, you are the single swinging the bat, and if mass is going up, it takes greater rigidity to get the comparable acceleration. So, a heavier bat swings slower. Now, many times, the bat isn't giving a rigidity, that is predicated on the momentum of the swing, the place momentum is mass circumstances velocity squared, meaning bat velocity is greater significant. So, a lighter bat ought to impart greater momentum on the ball. It additionally makes it much less demanding to alter the direction of the swing mid-flight. those 2 factors form of upload up, and which bat weight is greater valuable for a individual would be diverse for each individual, yet as quickly as you hit upon the butter zone, issues paintings high quality...
2016-10-14 23:19:26 · answer #3 · answered by reus 4 · 0⤊ 0⤋
In a round about way. It affects how fast you swing the bat and therefore, how far the ball will travel
2006-09-13 06:47:32 · answer #4 · answered by MyCuteDog 3 · 0⤊ 0⤋
it is all about inertia and momentum .. the swinging of the bat causes some velocity and the amount of energy stored inside the bat is equal to the product of mass and velocity
m(bat) * V(bat) = momentum or elastic energy ..
when this hits the ball the impulsive force transfer occurs and due to the head on collision of the bat and ball the energy stored in as elastic force transfer occurs and hence this increases the kinetic energy of the ball and hence the velocity.. leading to a longer travel of the ball..
2006-09-13 07:03:50 · answer #5 · answered by anandu 1 · 0⤊ 0⤋
yeah because the lighter the bat the faster the swing speed resulting in the ball being hit further.
2006-09-13 06:46:54 · answer #6 · answered by Nostradamus 3 · 0⤊ 0⤋
YES< provided it was hit with exactly the same force.
if you could keep increasing the force then no.
2006-09-13 06:53:34 · answer #7 · answered by Anonymous · 0⤊ 0⤋
Yes. Yes it does.
You also have to take into consideration of how fast you can swing it as well.
2006-09-13 06:46:20 · answer #8 · answered by Anonymous · 0⤊ 0⤋
yep, thats y bats with lead in them are illegal in the majors
2006-09-13 06:52:33 · answer #9 · answered by Dj Enigma 4 · 0⤊ 0⤋
Yes, among many other things.
2006-09-13 06:46:11 · answer #10 · answered by dolphin2253 5 · 0⤊ 0⤋