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Forces * Newton’s Laws And Speed. Newton’s Laws First Law - An object at rest tends to stay at rest AND an object in motion tends to stay in motion.

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Presentation on theme: "Forces * Newton’s Laws And Speed. Newton’s Laws First Law - An object at rest tends to stay at rest AND an object in motion tends to stay in motion."— Presentation transcript:

1 Forces * Newton’s Laws And Speed

2 Newton’s Laws First Law - An object at rest tends to stay at rest AND an object in motion tends to stay in motion.

3 Second Law - The acceleration of an object depends on the net force acting on the object and the object’s mass Third law - When one object exerts a force on a second object, the second object exerts an equal and opposite force on the first.

4 Motion (or lack of motion) cannot change without an unbalanced force acting.

5 Balanced forces Tug of war - teams pull in opposite directions If teams pull with the same force, in opposite directions, net force on the rope is ZERO and ---> Rope doesn’t move

6 Unbalanced forces To move the rope, one team must pull harder than the other.  Net force is NOT zero  Rope will MOVE * Only unbalanced forces cause an object to MOVE (speed up, slow down or change direction).

7 Average speed is described as a measure of distance divided by time. *Time can be in seconds, minutes, hours *Distance can be meters, kilometers *Speed is a combination of the two: m/s, km/hr Speed = distance or v = d/t time

8 Distance = speed X time or d = vt Time = distance or t = d/v speed

9 Velocity and speed are very similar ideas. Velocity is the rate of motion (the speed) in a specific DIRECTION. Example: I'm going that-a-way at 30 kilometers per hour. --> My velocity is 30 kilometers per hour that-a- way.

10 For velocity you must have both values -> speed and direction. Direction can be described in many ways: *east, west, south, north

11 When velocity is changing, the word acceleration is used. *You speed up if the acceleration and velocity point in the same direction. * You slow down ( decelerating ) if the acceleration and velocity point in opposite directions.

12 Momentum is in the same direction as velocity. --> indication of how hard it would be to stop an object. Example --> If you have a tennis ball and a bowling ball both traveling at 3 meters per second, which has greater momentum? Which would be HARDER to STOP? Right! *Right! The bowling ball has a greater momentum, it has more mass.

13 To calculate momentum: Momentum = mass X velocity

14 1.A runner finishes a 135 meter race in 24 seconds. What is the runner’s average speed? 2.Find the velocity in meters of a swimmer who swims exactly 110 m toward the shore in 72 s. 3.Find the velocity in meters per second of a baseball thrown 38 m from third base to first base in 1.7 s. 4.Calculate the momentum of a 8 kg bowling ball moving at 12.0 m/s down the alley. 5.An athlete with a mass of 73 kg runs with a constant forward velocity of 1.50m/s. What is their momentum?


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