It isn't really simple to explain; to get a thorough understanding, you MUST understand a few basic concepts. See below.
But basically, a force will result in an acceleration; the amount of acceleration an object experiences will depend on the force (more force will result in more acceleration), and on the object's mass (more mass will result in less acceleration).
The basic concepts that are important to understand are the following:
* Acceleration as a rate of change in velocity - how fast velocity changes.
* Both velocity and acceleration are vectors.
* A reduction in speed is a change in velocity; so is a change in direction, even if the speed doesn't change. In this case, in physics you would still talk about "acceleration"; even though in popular terms, "acceleration" is usually understood as an increase in speed.
* The NET FORCE must be considered - the vector sum of all forces that act on an object. It is quite common that a force acts on an object, but it doesn't accelerate - in which case there is a counter-force that is balancing the first force.
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
In simple past tense there is no helping verb used (that is why it is called 'simple') just the 2nd form of verb e.g: He ate. He went to school. I saw Mrs. Mandy. He wrote a wonderful book. She cheated me. etc.
Nerwton's 2nd law of motion as water particles are accelerating: F = ma
taking the 1st term as n=1 the 2nd term as n= 2 etc then the first 5 terms of 16-3n are : 1st : 16-3 = 13 2nd : 16-6 = 10 3rd : 16-9 = 7 4th: 16-12 = 4 5th : 16-15 = 1 hope this helps
The 1st term is (X). The 2nd term is (4X-5). The 3rd term is (16X-25). The average of the 2nd and 3rd terms is 1/2 of their sum. Their sum is (4X-5) + (16X-25) = (20X-30). Their average is (10X-15).
law of inertia F=MA
Newton's second law of motion is when an object meets force it will accelerate.
2nd law of motion
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
the 2nd one
Newton's third law of motion is "Every action has an equal and opposite reaction." When you sit down in a chair, the chair must provide an equal and opposite reaction or it would collapse.
That's Newton's third law of motion. A link can be found below.
Newton's 2nd Law - Impulse and momentum Newtons third law - Free body diagram
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.
Inertia is a sporting example of newton's first law of motion.
When a force is acted on an object the motion changes. Newtons 2nd law of motion states: An object in motion will stay in motion, and an object out of motion will stay out of motion, unless met with an unbalanced force. If a force is aplied to an object in motion it either accelerates, or it will stop once met with sed unbalanced force.
F = mA 1st F and A zero 2nd F and A not zero 3rd F zero and sum of A equal zero.