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Observations What just happen? How did it happen? Why did it happen?

Observations What just happen? How did it happen? Why did it happen?

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Page 1: Observations What just happen? How did it happen? Why did it happen?

Observations What just happen? How did it happen? Why did it happen?

Page 2: Observations What just happen? How did it happen? Why did it happen?

ObservationsInductive vs. Deductive Reasoning

Inductive Reasoning specific observations and measurements lead to general pattern..

For example:Premise: A bee stung me. It is a hymenopteran. (General)Premise: A wasp stung me. It is a hymenopteran. (General)Premise: A fire ant stung me. It is a hymenopteran. (General)Do you see a pattern ? (something stung me)Conclusion: All hymenopterans have stingers. (Specific)

Deductive Reasoning general idea leads to more specific ideas. For example:

Premise: All apples are fruits (General)Premise: A granny smith is an apple (Specific)Conclusion: Therefore a granny smith is a fruit

Page 3: Observations What just happen? How did it happen? Why did it happen?

Observations

Page 4: Observations What just happen? How did it happen? Why did it happen?

Obse

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Page 5: Observations What just happen? How did it happen? Why did it happen?

Obse

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Page 6: Observations What just happen? How did it happen? Why did it happen?

Obse

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Page 7: Observations What just happen? How did it happen? Why did it happen?

Obse

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What caused the motorcycle to jump?

The engine (force)

Once the motorcycle leaves the ramp what is causing it to still move?

Its own inertia

Describe the path of the motorcycle

Parabola

Page 8: Observations What just happen? How did it happen? Why did it happen?

Projectile motion problems are best solved bytreating horizontal and vertical motion separately.IMPORTANTGravity only affects vertical motion.

There are two general typesof projectile motion situations.

1. object launched horizontally2. object launched at an angle

Page 9: Observations What just happen? How did it happen? Why did it happen?

Objects Launched Horizontallyvi = initial horizontal velocity

dx = horizontal distance (range)

dy = vertical distance (height)

t = total time in the air

IMPORTANT FACTSThere is no horizontal acceleration.There is no initial vertical velocity.The horizontal velocity is constant.Time is the same for both vertical and horizontal.

EquationΔd = vi

. t + ½ . a . t2

Page 10: Observations What just happen? How did it happen? Why did it happen?

Object Launched at an Anglevi = initial velocityq = launch angle t = total time in air

dx = horizontal distanceIMPORTANT FACTSThe horizontal velocity is constant.It rises and falls in equal time intervals.It reaches maximum height in half the total time.Gravity only effects the vertical motion.

horizontalvx = vi cosq

verticalvy = vi sinq

Page 11: Observations What just happen? How did it happen? Why did it happen?
Page 12: Observations What just happen? How did it happen? Why did it happen?

Practice Problem 1A toy car rolls off the edge of a table and travels 0.30 m along the floor before landing. If the car had an initial velocity of 2.40 m/s, what is the height of the table?

Page 13: Observations What just happen? How did it happen? Why did it happen?

Practice Problem 2:A bomber flying 2000 m above the ground traveling at 55 m/s wants to hit a target, how many seconds before the bomber is directly above the target should the bomb be released?

What is the horizontal range of the bomb in problem 1?

Page 14: Observations What just happen? How did it happen? Why did it happen?

Problem Practice 3:A bullet is fired horizontally from a height of 3.0 m. If the bullet lands 2100 m from the rifle, what was the initial velocity of the bullet?

Page 15: Observations What just happen? How did it happen? Why did it happen?

Practice Problem 4:A car drives off of a 37 m cliff with a horizontal velocity of 21 m/s. How long does it take the car to land at the bottom of the cliff? How far from the base of the cliff does the car land?

Page 16: Observations What just happen? How did it happen? Why did it happen?

True or False: The time it takes a horizontal projectile to hit the floor is dependent on the initial horizontal velocity.

Page 17: Observations What just happen? How did it happen? Why did it happen?

True or False: The time it takes a projectile to hit the floor depends on the height.

Page 18: Observations What just happen? How did it happen? Why did it happen?

Grou

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Materials Bouncy balls Plastic spoon Cell phone with slow motion

capabilities Directions1.Hold the ball as highs as possible

and drop it. 1. What are you observations