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Newton and 3 Laws of Motion - How Rockets Actually Work! We must define Mass/Inertia (m) Velocity (v) Acceleration (a) Force (F)

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Presentation on theme: "Newton and 3 Laws of Motion - How Rockets Actually Work! We must define Mass/Inertia (m) Velocity (v) Acceleration (a) Force (F)"— Presentation transcript:

1 Newton and 3 Laws of Motion - How Rockets Actually Work! We must define Mass/Inertia (m) Velocity (v) Acceleration (a) Force (F)

2 Velocity The change in position per unit time v = change in position change in time Since a change in position has two properties, change in location and change in direction … We see that velocity must be described by both speed and direction t2t1 x1x2 v = x2 - x1 t2 - t1 change in “y” upward t2 t1 y1 y2 v = y2 - y1 t2 - t1 change in “x” sideways If velocity is constant (not changing with time) then the motion is called constant motion If velocity is not constant, then the object is said to be accelerating…

3 Acceleration acceleration = change in speed change in time change in direction change in time acceleration = change in speed and direction change in time acceleration = The change in velocity per unit time Since velocity has two properties, speed and direction, acceleration can be due to a change in one or the other of these or both of these t2t3 t1 V V V V t2 V t3 V t4 t3 t2 t1 V V V V a = change in velocity change in time

4 1st Law: Inertia A body will remain/continue in its present state of motion unless a net force acts on it. Unchanging motion is called constant motion 2 types: (1) rest, v=0 - with respect to you, the body is motionless no motion, not moving (v=0, a=0) (2) constant velocity (implies movement along a straight line) - with respect to you, the body’s motion is not changing direction does not change (v=constant, a=0) speed does not change (v=constant, a=0) Inertia is measured as mass. The mass (inertia) quantifies the body’s resistance to changing its motion when a net force acts on it. Mass is not your weight. Your weight is the force acting on you due to Earth’s gravity. Your weight will be different on different planets because the force of gravity differs from planet to planet. But, your mass is an unchanging quantity- it is an intrinsic property of you.

5 1st Law: Inertia A force (drag) acts on the sled, which slows down- but not on our heroes! … drag force original motion resulting sled motion

6 2nd Law: relationship between net force, mass, acceleration A net force on an object will result in the object accelerating in the direction of the net force Behavior: (1) acceleration is proportional to the net force - the bigger the net force, the greater the acceleration - the smaller the net force, the smaller the acceleration (2) acceleration is inversely proportional to the object’s mass - the bigger the object’s mass, the smaller the acceleration - the smaller the object’s mass, the greater the acceleration (3) direction of acceleration is in direction of net force a = net force object’s mass

7 + = 1200 up 800 down 400 up + = 600 up 800 down 400 up + = 50 up 50 down 0. unopposed net force Net Force… Must account for direction and magnitude (strength)

8 gravity force (down) Each second the velocity of the ball increases due to a constant acceleration The acceleration is constant because the net force is a constant force. After impulse of firing the cannon… In vertical direction, net force (gravity) is down, object accelerates down No horizontal net force, object moves with constant motion in horizontal direction (we are neglecting air resistance!) Resulting motion is “Projectile Motion” projectile motion - Newton’s 1st and 2nd Laws combine together to give an arching path Horizontal F = 0 a = 0 v = constant Vertical F = gravity a = constant, v = always increasing

9 1st Law 2nd Law

10 3rd Law: Equal opposite reaction Net force is to the left on the bricks by the man; they have small mass and therefore large accelerate (which means they reach high velocities quickly). The reaction force is conveyed to the right from the man to the cart (through his feet). Since the cart has a large mass, the cart has a small acceleration, and thus takes a long time to reach high velocities. Replace bricks by atoms (very low mass!), the man by a jet engine, and the cart by the rocket. Bam! You have liftoff (see diagram to the right)! So, Newton’s 2nd Law governs the growing velocity of the rocket, but the rocket flies because of Newton’s 3rd Law!

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