newton's 3rd law states that for every action there is an equal and opposite reaction. therefore when it comes to football, yes. if a player pushes against another player the opposite body will push back as well.
The second law is a fundamental law in physics, and therefore affects anything that occurs. Specifically, the law states that force is proportional to the product of mass and acceleration; more force on the same mass means more acceleration, so kicking or throwing the ball harder means it will get faster and move quicker, resulting in more distance and crossing the smae distance quicker. It also means that the harder you push on the groun, the quicker you will end up running or jumping.
A quarterback throws the football and it keeps moving until friction acts upon it by someone catching it or by the ground stopping it.
well because the ball is going to stay still until he hikes it is his first law
when people hit each other that's newtons second law
when people run that's newtons third law
well once the ball is spiked the offensive lines and the defensive lines of the two teams collide with one another each pushing on each other and being pushed on by equal and opposite forces.
the football players in front to go short disatnces and small players in the back to go long distances
If the sport involves moving things, then newtons second law applies. You can use newton's second law to get some real advantages during the game, too.
Force F, mass M and acceleration A are the 3 quantities in Newton's Second law of Motion.
No
Newton's second law of motion is when an object meets force it will accelerate.
Newton's third law of motion is that for every action there is an equal and opposite reaction. This law is also called reciprocal motion/force or "action-reaction."
mass = Force ___________ This formula is from Newtons second law. acceleration
Force=mass*acceleration
F=ma Input: newtons second law at wolframalpha.com
Force F, mass M and acceleration A are the 3 quantities in Newton's Second law of Motion.
they both are always making time and is always in motion
no
No
Its a matter of being scientifically rigorous. You can not claim the 2nd law as a law unless you first establish the first law.
acceleration
its not importsnt
This is because two concepts are derived from the newtons second law. First : Force . F = m * a Second : momentum .. p = m * v
It isn't.
the second law