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MOTION
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4.3 Acceleration Acceleration is the rate at which your speed (or velocity) changes.
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4.3 Acceleration What is the bike’s acceleration?
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4.3 Acceleration Acceleration describes how quickly speed changes.
Acceleration is the change in speed divided by the change in time.
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4.3 Speed and acceleration
An acceleration of 20 km/h/s means that the speed increases by 20 km/h each second. The units for time in acceleration are often expressed as “seconds squared” and written as s2. Can you convert this rate using conversion factors?
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A strong wind increases its speed to 4 m/s in 3 s.
Solving Problems A sailboat moves at 1 m/s. A strong wind increases its speed to 4 m/s in 3 s. Calculate acceleration.
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= 1 m/s2 Solving Problems Looking for: …acceleration of sailboat
Given: …v1 = 1 m/s; v2 = 4 m/s; time = 3 s Relationships: a = (v2 – v1)/t Solution: a = (4 m/s – 1 m/s)/ 3 s = 1 m/s2
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Your Turn (#1) = 5 m/s2 Given: Relationships: a = (v2 – v1)/t
Calculate the acceleration of an airplane that starts at rest and reaches a speed of 45 m/s in 9 seconds. Given: V1=0 m/s, V2 = 45 m/s, t=9s Relationships: a = (v2 – v1)/t Solution: a = (45 m/s – 0 m/s)/ 9 s = 5 m/s2
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Your Turn (#2) = -2 m/s2 Given: Relationships: a = (v2 – v1)/t
Calculate the acceleration of a car that slows from 50 m/s to 30 m/s in 10 seconds. Given: V1=50 m/s, V2 = 30 m/s, t=10s Relationships: a = (v2 – v1)/t Solution: a = (30 m/s – 50 m/s)/ 10 s = -2 m/s2
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Practice #1 = -0.75 m/s2 Given: Relationships: a = (v2 – v1)/t
While traveling along a highway, a driver slows from 24 m/s to 15 m/s in 12 seconds. What is the automobile’s acceleration? (Remember that a negative value indicates a slowing down or deceleration.) Given: V1=24 m/s, V2 = 15 m/s, t=12s Relationships: a = (v2 – v1)/t Solution: a = (15 m/s – 24 m/s)/ 12 s = m/s2
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Practice #2 = -8.9 m/s2 Given: Relationships: a = (v2 – v1)/t
A parachute on a racing dragster opens and changes the speed of the car from 85 m/s to 45 m/s in a period of 4.5 seconds. What is the acceleration of the dragster? Given: V1=85 m/s, V2 = 45 m/s, t=4.5s Relationships: a = (v2 – v1)/t Solution: a = (45 m/s – 85 m/s)/ 4.5 s = -8.9 m/s2
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Practice #4 = 7.5 s Given: Relationships: a = (v2 – v1)/t Solution:
A car traveling at a speed of 30.0 m/s encounters an emergency and comes to a complete stop. How much time will it take for the car to stop if it decelerates at –4.0 m/s2? Given: V1=30 m/s, V2 = 0 m/s, a= -4.0 m/s2, t=?? Relationships: a = (v2 – v1)/t Solution: t = (0 m/s – 30 m/s)/ -4.0 m/s2 = 7.5 s
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Practice #5 How will we solve this one?
If a car can go from 0 to 60. mph in 8.0 seconds, what would be its final speed after 5.0 seconds if its starting speed were 50. mph? How will we solve this one? This is a 2-part question Solve for the Acceleration, “a” with the first part. Solve for Vf given the Vi=50mph, and the “a” you calculated.
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4.3 Acceleration on speed-time graphs
Positive acceleration adds more speed each second. Things get faster. Speed increases over time.
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4.3 Acceleration on speed-time graphs
Negative acceleration subtracts some speed each second. Things get slower. People sometimes use the word deceleration to describe slowing down.
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4.3 Acceleration on position-time graphs
The position vs. time graph is a curve when there is acceleration. The car covers more distance each second, so the position vs. time graph gets steeper each second.
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4.3 Acceleration on position-time graphs
When a car is slowing down, the speed decreases so the car covers less distance each second. The position vs. time graph gets shallower with time.
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4.3 Free fall An object is in free fall if it is accelerating due to the force of gravity and no other forces are acting on it.
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4.3 Free fall Falling objects increase their speed by 9.8 m/s every second, or 9.8 m/s2
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4.3 Acceleration and direction
A car driving around a curve at a constant speed is accelerating because its direction is changing.
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4.3 Curved motion A soccer ball is an example of a projectile.
A projectile is an object moving under the influence of only gravity. The path of the ball makes a bowl-shaped curve called a parabola.
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4.3 Curved motion Circular motion is another type of curved motion.
An object in circular motion has a velocity vector that constantly changes direction.
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