Dropping anything from a height above the surface of the earth. The FORCE of gravity acting on the MASS you drop produces an ACCELERATION.
A rocket launch. The FORCE of the rockets acts on the MASS of the rocket and produces and ACCELERATION. Of course, as the fuel burns, the total mass of the system decreases, so the acceleration itself increases.
Anything that is moving (cars, baseballs, bugs) has it's motion explained by the NET FORCE acting on a MASS.
1. "Objects in motion remain in motion unless acted upon by an external force." - Basically, objects that are moving in one direction at a constant speed will keep moving in said direction at that speed unless there is some force present. This force will cause the objects motion to change somehow (speed up, slow down etc). A good example of this is if you're swinging something around your finger and it flies off - it will fly off into the direction you were last rotating it in, if that makes any sense.
2. "F=ma" - Where F=force and m=mass and a=acceleration. Mass is a measure of how much matter an object contains, and here on Earth objects that have more mass also weigh more. But this does not mean, however, that weight and mass are always the same thing. For example, if you were to weigh yourself on Earth and then weigh yourself on the moon, you would weigh less, but the amount of mass you have remains the same!
3. "If object A exerts a force on object B then object B exerts the same magnitude force back on object A, just in the opposite direction." - All this means is if you push an object, it pushes back on you.
When objects take a free fall, Newton's 2nd law can be used to calculate the force at which they hit the ground. This is achieved using the earth's gravitational pull of 10 m/s2 and his force formula, F=MA.
There are no noticeable examples of Newton's first law, or of any of the others for
that matter, present in our daily life, except for every time anything starts moving,
stops moving, speeds up, slows down, or keeps going straight, or turns.
Newton's second law appears to be crazy like especially in Flow town. I go to a high school and my teachers talking to us about newton's laws and i don't find it interesting but the answer is idk. Maybe try Bing :0) lmao
Try yourself. It's not a hard question, and it's given to you because of some reasons. Try to think out the examples yourself.
The easy fetching is not going to help you.
a fielder pull his hand gradually with the moving ball while holding a catch
newtons 2nd law states that if a force is put on an object then the object will move in the oppisite direction of the force no thats the third law
Its a matter of being scientifically rigorous. You can not claim the 2nd law as a law unless you first establish the first law.
That's Newton's third law of motion. A link can be found below.
Newtons laws have to do with lacrosse when (in guys lacrosse) you push the other player, which relates to newtons 2nd law, the larger the mass the harder the acceleration. Also, newtons 1st law involves throwing and catching a ball, newtons law says and object in motion will stay in motion until acted upon by an outside force. The object in motion is the ball and the outside force is the other person catching it, stopping the motion. Newtons third law relates to lacrosse when you make a shot and hit the post causing it to bounce off. The 3rd law states for every action theres an equal and opposite reaction. The reaction is the ball flying off the post.
Almost all machinery uses the 2nd Law. Also sports activity and firearms use the 2nd law. The 2nd Law runs the Universe, from the motions of tools to the motions of the galaxies.
yellow'2nd green
newtons 2nd law states that if a force is put on an object then the object will move in the oppisite direction of the force no thats the third law
because it just does
law of inertia F=MA
2nd law of motion
Its a matter of being scientifically rigorous. You can not claim the 2nd law as a law unless you first establish the first law.
the 2nd one
Newton's 2nd law is F=ma.
Newtons (N) are the SI unit of force, and kilograms are the SI unit of mass. F = m(a) according to Newton's (the person, now the unit) 2nd Law. F(in Newtons) = m(in kg) * a(in m/(s2)). F = (95)(9.8) F = 931 Newtons
Newton's second law of motion is when an object meets force it will accelerate.
Force = Mass x Acceleration. Google it if you want a more in depth explanation.
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