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ACCELERATION Chapter 4
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Acceleration A change in velocity (speed or direction)
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Average Acceleration How fast the velocity changes For example: 5 miles/hour/second 5 miles per hour per second
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Units Meters per second per second: m/s/s Or Meters per second squared
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Negative Acceleration Acceleration (not motion) in the backward direction Results in “deceleration” (slowing down)
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Acceleration Graphs Constant Acceleration Straight Line Changing Acceleration Curved line
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Calculating Velocity (final) of an object with constant acceleration v = at
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4.2 DISPLACEMENT DURING CONSTANT ACCELERATION
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Average Velocity With constant acceleration
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Displacement when velocity and time are Known A car is traveling at 20 m/s and accelerates at a constant rate to 40 m/s in 5 seconds. What is its average velocity? How far did the car travel? d = ½ (v f + v i )t d = vt _ Rearrange to solve for displacement The equation below is a combination of the two equations Equation for average velocity
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Displacement when original velocity, acceleration and time are known Combining these two equations (substitute V f from second equation into the first equation d = ½(v f + v i )t V f = V i + at Yields this equation
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Displacement when original velocity, acceleration and time are known A car accelerates from rest at a rate of 6.1 m/s/s for 7.0 s. How far does the car move?
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Displacement when acceleration and velocity are known Combine the equations for final velocity and displacement d = ½ (v f + v i )tv f = v i + at Solving for V f yields this equation
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Calculating Acceleration From Displacement and Velocity An airplane must reach a velocity of 71 m/s for takeoff. If the runway is 1.0 km long, what must the acceleration be?
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Rearrange the equation to solve for x The plane lands going 71 m/s. It slows to a halt with an acceleration of -2.5 m/s/s. How much runway does it require?
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ACCELERATION DUE TO GRAVITY
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Acceleration due to Gravity Galileo All objects fall to Earth with the same constant acceleration
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Acceleration Due to Gravity Downward direction is negative -9.8 m/s/s
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Acceleration Due to Gravity
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Equations All the same equations for constant acceleration Just replace a with g
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Distance Traveled An object falls for a given amount of time, how far does it fall?
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Time An object falls a given distance, how long will it take to hit the ground? Rearrange the equation to solve for t
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Final Velocity An object free falls for a given amount of time, how fast is it going when it hits the ground? Different than average velocity Vf = Vi + gt
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Example Problem 2 See page 78 What equation will you use for part a? Solve for x For part b, solve for time using Vf = Vi + gt Vf = 0
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Read Problem Solving Strategy on Page 78
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