Newton's second law of motion is when an object meets force it will accelerate.
yes. newtons 2nd law says that when force increases then so dose acceleration. and when mass increases acceleration decreases.
1st law gives us an idea that a body is subject to the principle of inertia of rest, motion or direction. 2nd law, being the most important of the three, helps us to deduce the equation:F=ma 3rd law is perhaps the most popular law, "Every action has an equal and opposite reaction."
it is simply Newtons 2nd law, by the stating of protons and electrons being equal
We can use Newtons 2nd law to figure this out. The formula is Force (Resultant) = Mass x Acceleration. The ores mass is constant. If you use a greater force, working out the formula, the velocity increases.
the 2nd one
Newton's 2nd law is F=ma.
-- There are two other laws in the set ... one before it and one after.
Newton's 2nd Law - Impulse and momentum Newtons third law - Free body diagram
That's Newton's third law of motion. A link can be found below.
take a look at newtons 1st and 2nd laws. Basically if a force is applied on an object in one direction and no other forces are present it will accelerate or decelerate.
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
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.
because it just does
law of inertia F=MA
2nd law of motion