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Sec. 2–3: Falling Objects Coach Kelsoe Physics Pages 60–65.

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Presentation on theme: "Sec. 2–3: Falling Objects Coach Kelsoe Physics Pages 60–65."— Presentation transcript:

1 Sec. 2–3: Falling Objects Coach Kelsoe Physics Pages 60–65

2 Objectives Relate the motion of a freely falling body to motion with constant acceleration. Calculate displacement, velocity, and time at various points in the motion of a freely falling object. Compare the motions of different objects in free fall.

3 Free Fall Free fall is the motion of a body when only the force due to gravity is acting on the body. The acceleration on an object in free fall is called the acceleration due to gravity, or free-fall acceleration. Free-fall acceleration is denoted with the symbols a g (generally) or g (on Earth’s surface).

4 Free-Fall Acceleration Free-fall acceleration is the same for all objects, regardless of mass. Our book will use the value g = -9.81 m/s 2. Free-fall acceleration on Earth’s surface is -9.81 m/s 2 at all points in the object’s motion. Consider a ball thrown up in the air. –Moving upward: the velocity is decreasing, acceleration is -9.81 m/s 2 –Top of path: velocity is zero, acceleration is -9.81 m/s 2 –Moving downward: velocity is increasing, acceleration is -9.81 m/s 2.

5 Sample Problem Falling Object Jason hits a volleyball so that it moves with an initial velocity of 6.0 m/s straight upward. If the volleyball starts from 2.0 m above the floor, how long will it be in the air before it strikes the floor?

6 Sample Problem Solution Define –Given: v i = +6.0 m/s a = -g = -9.81 m/s 2 Δy = -2.0 m –Unknown: Δt = ? –Diagram: Place the origin at the starting point of the ball (y i = 0 at t i = 0).

7 Sample Problem Solution Plan –Choose an equation or situation: Both ∆t and v f are unknown. Therefore, first solve for v f using the equation that does not require time. Then, the equation for v f that does involve time can be used to solve for ∆t. v f 2 = v i 2 + 2aΔyv f = v i + aΔt –Rearrange the equation to isolate the unknown. Take the square root of the first equation to isolate v f. The second equation must be rearranged to solve for ∆t. v f = ± √ v i 2 + 2aΔy Δt = v f – v i /a

8 Sample Problem Solution Calculate –Substitute the values into the equation and solve: First find the velocity of the ball at the moment that it hits the floor. v f = ± √ v i 2 + 2aΔy v f = ± √( 6.0 m/s) 2 + 2(-9.81 m/s 2 )(-2.0 m) v f = ± √ 36 m 2 /s 2 + 39 m 2 /s 2 = -8.7 m/s –Tip: When you take the square root to find v f, select the negative answer.

9 Vocabulary

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