Changing Motion

1. 1. What is the shortest possible time in which a bacterium could drift at a velocity of 3.5 mm/s across a petri dish with a diameter of 8.4 cm ? 2. A child is pushing a shopping cart at a speed of 1.5 m/s. How long will it take this child to push the cart down an aisle with a length of 9.3 m ? 3. It takes you 9.5 minutes to walk with an average velocity of 1.2 m/s to the north from the bus stop to the museum entrance. What is your displacement ?

2. Changing Motion Changing Motion

3. Acceleration • Acceleration is any change in the velocity of an object with respect to time. • The difference between two velocities divided by the time for the change. • Acceleration has a magnitude and direction.

4. Acceleration • It measures the rate of change in velocity. • The SI unit for acceleration is m/s2 (vf –vi ) • a = ---------- t a = acceleration vf = velocity final vi = velocity initial t = time

5. Example #1 A car increases its velocity from 4 m/s to 25 m/s in 5.5 seconds. Find the car’s acceleration? G:vi = 4 m/s vf = 25 m/s t = 5.5 s U: a (vf –vi ) E: a = ---------- t S: substitute S: 3.8 m/s2

6. Displacement with Constant Uniform Acceleration • We know that the average velocity is equal to displacement divided by the time interval. d v avg = t • For an object moving with constant acceleration, the average velocity is equal to the average of the initial velocity and the final velocity. vf + vi • v avg = 2

7. Displacement with Constant Uniform Acceleration d (vf + vi) t = v avg and v avg = 2 d (vf + vi) t = v avg = 2 d (vf + vi) t = 2 d = ½ ( vf + vi ) t

8. Example #2 A car increases its velocity from 4 m/s to 25 m/s in 5.5 seconds. Find the car’s displacement while speeding up. G:vi = 4 m/s vf = 25 m/s t = 5.5 s U: d E: d = ½ ( vf + vi ) t S: substitute S: 79.8 m

9. Example #3 A car increases its velocity from 4 m/s to 25 m/s in 5.5 seconds. G:vi = 25 m/s vf = 0 m/s d = 50 m U: a ( vf – vi ) E: a = t d = ½ ( vi + vf ) t S: substitute S: -6.3 m/s2 The car’s driver then applies the brakes and stops the car in 50 meters. Find the car’s acceleration

10. Example #4 A car increases its velocity from 4 m/s to 25 m/s in 5.5 seconds. The car’s driver then applies the brakes and stops the car in 50 meters. Find the time to stop the car. G: U: E: S: S: See work on example 3

11. Example #5 A golf ball is dropped from a 10-meter tall building, strikes the ground at 12.5 m/s and rebounds at 5 m/s. Find the ball’s acceleration from the point it is dropped until it strikes the ground, if the time of impact equaled 0.025 seconds. G: d = 10 m vi = 0 m/s vfdown = 12.5 m/s (down) vfup = 5 m/s (up) t = 0.025 s U: a (vf – vi ) E: a = t S: substitute S: 500 m/s2