Laws of Motion NGSS Energy Unit 3
Newton’s First Law of Motion An object will remain at rest or move in a straight line with constant speed unless it is acted upon by a force.
Newton’s First Law of Motion at the Space Station
STOP! … Quick demo! Place the index card on top of the beaker. Place a penny on the top of the index card. As quick as you can, pull the index card off the top of the beaker. What happens to the penny? On your foldable… draw a picture demonstrating what occurred to the penny using Newton’s 1 st Law of Motion. Place the index card on top of the beaker. Place a penny on the top of the index card. As quick as you can, pull the index card off the top of the beaker. What happens to the penny? On your foldable… draw a picture demonstrating what occurred to the penny using Newton’s 1 st Law of Motion.
Newton’s Second Law of Motion An object acted on by an unbalanced force will accelerate in the direction of the force with an acceleration equal to the force divided by the objects mass. a = F/m An object acted on by an unbalanced force will accelerate in the direction of the force with an acceleration equal to the force divided by the objects mass. a = F/m
Newton’s Second Law of Motion at the Space Station
STOP!! … Quick demo! Place a penny and a piece of popcorn at the end of your table. For the first trial, blow the popcorn across the table with only ONE breath. For the second trial, blow the penny across the table with only ONE breath. What object traveled the farthest? Why? On your foldable, DRAW a picture demonstrating what occurred to the penny and popcorn using Newton’s 2 nd law of motion. Place a penny and a piece of popcorn at the end of your table. For the first trial, blow the popcorn across the table with only ONE breath. For the second trial, blow the penny across the table with only ONE breath. What object traveled the farthest? Why? On your foldable, DRAW a picture demonstrating what occurred to the penny and popcorn using Newton’s 2 nd law of motion.
Newton’s Third Law of Motion For every action, there is an equal but opposite reaction.
Newton’s Third Law of Motion at the Space Station
STOP!! … Quick demo! Drop a ball from the height of the table top. Watch what occurs. What is the action process of the drop? What is the reaction process of the drop? In your foldable, DRAW a picture demonstrating what occurred to the ball using Newton’s 3 rd law of motion. Drop a ball from the height of the table top. Watch what occurs. What is the action process of the drop? What is the reaction process of the drop? In your foldable, DRAW a picture demonstrating what occurred to the ball using Newton’s 3 rd law of motion.