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Unit 5 Review, Day 2: Acceleration and Velocity-Time Graphs.

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Presentation on theme: "Unit 5 Review, Day 2: Acceleration and Velocity-Time Graphs."— Presentation transcript:

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3 Unit 5 Review, Day 2: Acceleration and Velocity-Time Graphs

4 Unit 5: Motion and Forces
LG1: SWBAT define average speed and calculate the average speed of an object. LG2: SWBAT interpret distance-time graphs. LG3: SWBAT define acceleration calculate the acceleration of an object. LG4: SWBAT interpret velocity-time graphs. LG5: SWBAT define Newton’s first law of motion and use it explain the motion of objects. LG6: SWBAT define Newton’s second law of motion and use it to explain the motion of objects. LG7: SWBAT define Newton’s third law of motion and use it to explain the motion of objects.

5 Learning Goal 3: SWBAT define acceleration and calculate the acceleration of an object.

6 Acceleration Acceleration is a change in velocity divided by the time it takes for the change to happen. Acceleration can be positive (speeding up) or negative (slowing down).

7 Practice Problems Jahina is jogging. She speeds up from 2 m/s to 8 m/s in 6 seconds. What is her acceleration? Quentavia is driving when she sees a stoplight ahead. She slows down from 30 m/s to 10 m/s in 4 seconds. What is her acceleration? Roterra is running a race. Near the end, she speeds up, increasing her speed from 7 m/s to 13 m/s in 12 seconds. What is her acceleration? Kris is riding a bike. He slows down from 18 m/s to 9 m/s in 3 seconds. What is his acceleration?

8 Learning Goal 4: SWBAT interpret velocity-time graphs.

9 Velocity-Time Graphs A B C D

10 Interpreting points from v-t graphs
Each point has y-coordinate and x-coordinate. Y-coordinate tells you the velocity (speed) of the object at that point. X-coordinate tells you the total time that has passed since object started moving. Point B: (4, 8) x = 4 s y = 8 m/s

11 Practice At point C, what is the object’s speed, and how much time has passed? After 2 seconds, what was the object’s speed? How many seconds did it take for the object to reach a speed of 6 m/s? At point D, what is the object’s speed? A B C D

12 Calculating acceleration from v-t graphs
To find object’s acceleration during an interval: Find the change in speed (y2 – y1) Find the change in time (x2 – x1) Divide change in speed by change in time

13 Example Acceleration from point A to point B: A B C D

14 Practice What was the acceleration from O to A?
What was the acceleration from A to B? What was the acceleration from B to C? What was the acceleration from D to E?

15 Independent practice time!

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