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Describing Motion. Basic Terminology Position: Where an object is located in space Think of mile markers along a highway.

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Presentation on theme: "Describing Motion. Basic Terminology Position: Where an object is located in space Think of mile markers along a highway."— Presentation transcript:

1 Describing Motion

2 Basic Terminology Position: Where an object is located in space Think of mile markers along a highway

3 Basic Terminology Position: Where an object is located in space Think of mile markers along a highway Speed: How quickly position is changing – just a non-negative number Velocity: How quickly position is changing – includes direction of change

4 Basic Terminology Position: Where an object is located in space Think of mile markers along a highway Speed: How quickly position is changing – just a non-negative number Velocity: How quickly position is changing – includes direction of change Acceleration: How quickly velocity is changing – includes direction of change Any change in velocity is an acceleration

5 Turning is acceleration: While speed may be constant, the direction of the velocity is changing

6 How many “accelerators” – in the physics sense of the word – does a car have? A)1: The gas pedal B)2: The gas pedal and the brake C)3: The gas pedal, the brake, and the steering wheel D)4: The gas pedal, the brake, the steering wheel, and the blinkers

7 Acceleration: How quickly velocity is changing – includes direction of change Can include speeding up, slowing down, OR turning

8 Acceleration due to gravity Every second in freefall, the force of gravity adds 10 m/s to the speed of the falling object We say the object’s acceleration is g = 10 m/s/s = 10 m/s 2 NOTE: This is the value at the surface of the Earth (more precisely, g = 9.8 m/s 2 )

9 Of course, this ignores air resistance… Air resistance demo…

10 Ignoring air resistance, how fast will a rock be falling 5 seconds after it is dropped? A)5 m/s B)10 m/s C)25 m/s D)50 m/s E)100 m/s

11 Force and Momentum Momentum is the product of mass and velocity The faster an object moves, the more momentum it has. A more massive object, traveling at the same speed, will have more momentum. Demonstration...

12 Force and Momentum Momentum is the product of mass and velocity The faster an object moves, the more momentum it has. A more massive object, traveling at the same speed, will have more momentum. Demonstration... The only way to change on objects momentum is to apply a Force to it. Conversely, if a net force is applied to an object, the object’s momentum WILL change. Demonstration...

13 Force and Momentum Momentum is the product of mass and velocity The faster an object moves, the more momentum it has. A more massive object, traveling at the same speed, will have more momentum. Demonstration... The only way to change on objects momentum is to apply a Force to it. Conversely, if a net force is applied to an object, the object’s momentum WILL change. Demonstration... Momentum of an object is “conserved” if there are no external forces.

14 Rotational Motion An object that is rotating has Angular Momentum Demonstration...

15 Mass and Weight Mass is the amount of matter in an object. Weight is the force that a scale measures when you stand on it. Weight depends on mass as well as gravity and other forces acting on an object…

16 Mass and Weight Mass is the amount of matter in an object. Weight is the force that a scale measures when you stand on it. Weight depends on mass as well as gravity and other forces acting on an object…

17 Mass and Weight Another example… If Buzz Aldrin weighed 190 lbs on Earth, he only weighed 31 lbs on the Moon. His mass didn’t change.

18 “Weightlessness” In freefall, there IS gravity. Man and machine fall together, accelerating at the same rate. So neither has to push on the other – they’re “weightless”

19 Astro-Cash Cab! Carl Cook Quincey Davison Rebecca Lopez Faleen Lobato Jeffrey Crawford

20 1) What do we call any change in motion? A)Force B)Mass C)Speed D)Velocity E)Acceleration

21 2) True or False ? Astronauts in space are weightless because there is no gravity in space.

22 3) Which of the following is NOT an example of acceleration? A race car driving at 225 mph on a long straightaway. A kid on a bicycle going 5 mph around a turn. A book sliding to a stop on the floor. A spacecraft in orbit around the Earth.

23 4) Compared to standing on earth, when an astronaut is standing on the Moon her _________ is the same, but her _________ is different. Mass Weight

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