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9.2 – Calculating Acceleration The acceleration of an object depends on the change in velocity and the time required to change the velocity. When stopping.

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Presentation on theme: "9.2 – Calculating Acceleration The acceleration of an object depends on the change in velocity and the time required to change the velocity. When stopping."— Presentation transcript:

1 9.2 – Calculating Acceleration The acceleration of an object depends on the change in velocity and the time required to change the velocity. When stopping a moving object, the relationship between time and acceleration is:  Increasing the stopping time decreases the acceleration.  Decreasing the stopping time increases the acceleration.

2 Airbags Airbags cause the person to slow down in a longer period of time, compared to hitting a solid object such as the dashboard. This i n c r e a s e d t i m e results in a smaller acceleration.

3 Velocity-Time Graphs The motion of an object with a changing velocity can be represented by a velocity-time graph. The slope of a velocity-time graph is average acceleration. Acceleration is measured in m/s 2.

4 Velocity-Time Graphs The slope of a velocity-time graph is the average acceleration of the object.

5 Determining Motion from a Velocity-Time Graph A velocity-time graph can be analyzed to describe the motion of an object.  +ve slope (+ve ) – object’s velocity is increasing in the +ve direction  zero slope (zero ) – object’s velocity is constant  –ve slope (–ve ) – object’s velocity is decreasing in the +ve direction or increasing in the –ve direction

6 Determining Motion from a Velocity-Time Graph State during which time interval: a)the acceleration was zero d) the object was increasing its velocity N b)the acceleration was -ve e) the object was decreasing its velocity N c)the acceleration was +ve f)the object was moving @ a constant velocity N

7 Determining Motion from a Velocity-Time Graph Describe the object’s velocity between 0 and t 1. object starts from ____________ speed ___________________________ object travels ____________

8 Determining Motion from a Velocity-Time Graph Describe the object’s velocity between t 1 and t 2. speed ___________________________ object travels ____________

9 Determining Motion from a Velocity-Time Graph Describe the object’s velocity between t 2 and t 3. speed _______________ until the object ______ direction of travel: object __________________

10 Calculating Acceleration

11 Example: A pool ball travelling at 2.5 m/s towards the cushion bounces off at 1.5 m/s. If the ball was in contact with the cushion for 0.20 s, what is the ball’s acceleration? (Assume that “towards the cushion” is the +ve direction.) The ball’s velocity changes from 2.5 m/s [toward the cushion] (A) to 1.5 m/s [away from the cushion] (B).

12 Calculating Acceleration The car accelerates from rest for 5.0 s.

13 Calculating Acceleration

14 Calculating Acceleration – Sample Problems 1.A truck starting from rest accelerates uniformly to 18 m/s [W] in 4.5 s. What is the truck’s acceleration? 1.A toboggan moving 5.0 m/s [forward] decelerates at -0.40 m/s 2 [forward] for 10 s. What is the toboggan’s velocity at the end of the 10 s? 1.How much time does it take a car travelling south at 12 m/s to increase its velocity to 26 m/s south if it accelerates at 3.5 m/s 2 south?

15 Gravity and Acceleration Objects near the surface of Earth fall to Earth due to the force of gravity.  Gravity is a pulling force that acts between 2 or more masses.  g (the acceleration due to gravity) = 9.8 m/s 2 downward.

16 Air Resistance Air resistance is a friction-like force that opposes the motion of objects that move through the air. Ignoring air resistance, all objects will accelerate toward Earth at the same rate. Air resistance force depends on an object’s…  speed,  shape,  size.

17 Gravity and Acceleration UP is positive DOWN is negative During the entire trip, the ball’s acceleration is toward the ground.

18 Calculating Motion Due to Gravity To analyze situations where objects are accelerating due to gravity, use the equations: In these equations, the acceleration ( ) is 9.8 m/s 2 downward. Example:  Suppose a rock falls from the top of a cliff. What is the change in velocity of the rock after it has fallen for 1.5 s? Assign “down” as negative (-).

19 Calculating Motion Due to Gravity – Sample Problems 1.What is the change in velocity of a brick that falls for 3.5 s? 1.A ball is thrown straight up into the air at 14 m/s. How long does it take for the ball to slow down to an upward velocity of 6.0 m/s? 1.A rock is thrown downwards with an initial velocity of 8.0 m/s. What is the velocity of the rock after 1.5 s? Recall: down is negative, so g = –9.8 m/s 2

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