B1.3 Acceleration.

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Presentation transcript:

B1.3 Acceleration

Acceleration is defined as a change in velocity during a specific time interval. = acceleration (m/s2) = change in velocity (m/s) = time interval (s) = final velocity (m/s) where = initial velocity (m/s) Since velocity is a vector quantity, it has both magnitude and direction. So, an accelerating object can be changing speed and/or direction. In this course, we will focus on objects that are changing speed.

Metres per second squared?? change in velocity units: (m/s) Let’s look at the formula to better understand what this really means . . . change in time “metres per second per second” units: (s) So, for example, an object with an acceleration of 2.0 m/s2 changes its velocity by 2.0 m/s each second. Acceleration can be described as a rate of change of velocity. So, “metres per second squared” is the same as “metres per second per second.”

examples: Practice Problems p. 147 12) A shuttle craft accelerates from rest to a velocity of 50 m/s [upward] in 4.00 s. What is the acceleration? 13 m/s2 [upward] 13) A baseball thrown at 25.0 m/s strikes a catcher’s mitt and slows down to rest in 0.500 s. What is the magnitude of the ball’s acceleration? 50.0 m/s2 14) A hockey puck travelling at 10.0 m/s strikes the boards, coming to rest in 0.0300 s. What is the magnitude of the puck’s acceleration? 333 m/s2 15) A car driver applies the brakes and slows down from 15.0 m/s [E] to 5.00 m/s [E] in 4.00 s. Determine the car’s acceleration. 2.50 m/s2 [E]

Homework: read pages 146 – 147 B1.3 Check and Reflect

Position-Time Graphs Recall that the slope of the line on a position-time graph is the velocity of the object, and that an accelerating object is changing its velocity. So, that would give us a position-time graph where the line has a changing slope. A curved line on a position-time graph means the object is accelerating. If you see either one of these curves, then it is positive acceleration. If you see either one of these curves, then it is negative acceleration.

Use the graph to describe the motion of the object in each time interval: text p. 149 a) t = 0.0 s to t = 3.0 s b) t = 3.0 s to t = 6.0 s c) t = 6.0 s to t = 8.0 s increasing velocity constant velocity decreasing velocity

Velocity of Boat v (m/s) [E] Velocity-Time Graphs Time t (s) Velocity of Boat v (m/s) [E] 0.0 1.0 2.0 4.0 3.0 6.0 8.0 5.0 10.0 A motorboat is accelerating in an easterly direction and the velocity of the boat is recorded every second for 5.0 seconds. Velocity vs Time text p. 152 A velocity-time graph is used to describe the motion of the boat. Velocity (m/s) Time (s)

change in velocity Velocity vs Time slope Velocity (m/s) change in time acceleration = Time (s) The slope of a line on a velocity-time graph is equal to the acceleration of the object.

Velocity vs Time Velocity (m/s) = +2.0 m/s2 Time (s) (0,0) (3.0,6.0) So, the boat is accelerating at a constant rate of 2.0 m/s2 east.

Use the graph to describe the motion of the object in each time interval: text p. 153 a) t = 0.0 s to t = 3.0 s b) t = 3.0 s to t = 5.0 s c) t = 5.0 s to t = 8.0 s increasing velocity constant velocity decreasing velocity

The graphs can be related to each other, but that doesn’t mean you look at them the same way. v vs t d vs t 1) An object moves at a constant velocity. d vs t v vs t 2) An object stops moving.

d vs t v vs t 3) An object speeds up at a constant rate. d vs t v vs t 4) An object slows down at a constant rate.

Graphing Summary Position-Time Graphs Velocity-Time Graphs slope = velocity slope = acceleration area under the curve has NO USEFUL MEANING area under the curve = displacement

Homework: read pages 146 – 153 B1.3 Check and Reflect (note corrections on pages 152 and 153) B1.3 Check and Reflect page 154 #’s 10 & 11 Black Line Master # 5