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Force = (mass) x (acceleration) Acceleration = (force) / (mass) With the same force applied, a smaller mass has greater acceleration. A baseball has less mass than a shot has, so the same force gives it greater acceleration.
F = ma, or Force = mass x acceleration. We can put this into an equation. 12 N force = 8 kg mass x unknown acceleration. To get the unknown acceleration by itself, we divide both sides by 8. This leaves us with 1.5 = a. Acceleration is 1.5 ms-2
If both balls are exactly the same size, and one having larger mass, the 300g ball will hit the ground first. This is easy to relate to a hammer and a large feather, even if they have the same surface area the hammer having a larger mass has a larger terminal velocity.
1000 N as well.
No, if you are driving and press the accelerator down to increase the fuel and air mixture & increase RPM then you will accelerate forward for a time before you come stop accelerating and just keep going
Force = (mass) x (acceleration) Acceleration = (force) / (mass) With the same force applied, a smaller mass has greater acceleration. A baseball has less mass than a shot has, so the same force gives it greater acceleration.
F = ma, or Force = mass x acceleration. We can put this into an equation. 12 N force = 8 kg mass x unknown acceleration. To get the unknown acceleration by itself, we divide both sides by 8. This leaves us with 1.5 = a. Acceleration is 1.5 ms-2
Force equals mass times acceleration.
Badminton - Force required to hit the shuttlecock Tennis - Force required to hit the ball Football - Force required to kick the ball Rugby - Force required to throw/kick the ball
If both balls are exactly the same size, and one having larger mass, the 300g ball will hit the ground first. This is easy to relate to a hammer and a large feather, even if they have the same surface area the hammer having a larger mass has a larger terminal velocity.
Yes there out
the angles that you hit the ball, how high you hit the ball, and the langth you hitt the ball. you also can find out how much force is on the ball:)
It depends on how hard you hit the ball.
In volleyball math is used when you hit the ball. You use angles and force to hit the ball in a downward motion causing you to hit the ball or otherwise spike the ball.
1st law: When a body is at rest or uniform motion it will remain at rest or in uniform motion unless acted upon by an external unbalance force. (a ball at on a stand will not move until you hit it with a bat) ' 2nd law: The acceleration of a body is directly proportional to the unbalanced external force and inversely proportional to its mass. (A ball will move faster if you hit it harder and slower if it is heavier) 3rd law: For every action their is an equal and opposite reaction. (This one is a little harder, If you hit a ball with a bat, the ball is acted upon by a force applied to it by the bat, at the same time the bat is acted upon by a force in the opposite direction but of the same size which is applied by the ball)
If you hit the ball with force of 10N, it will "hit" you with the force equal in magnitude but opposite in direction.
1000 N as well.