A. Kinematics in One Dimension.  Mechanics – how & why objects move  Kinematics: the description of how objects move.

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<ul><li><p>Kinematics in One Dimension</p></li><li><p>Mechanics how &amp; why objects moveKinematics: the description of how objects move</p></li><li><p>Distance: total length of travelDisplacement: change in position</p><p>Lets say a runner jogs a lap around a 100-meter track. He returns back to where he started in 4 minutes. a. What distance did he travel?b. What was his displacement?</p></li><li><p>Our Very First Formula! Isnt this exciting?Displacement:x = xf xi ,</p><p>Where x = change in position, or displacement,xf = final position, andxi = initial position*Displacement is directionally dependent! You CAN have negative displacement!</p></li><li><p>Use a visual!</p></li><li><p>Does the odometer in your car measure distance or displacement?</p><p>Can you think of a situation where it would measure both?</p></li><li><p>A particle moves from x = 1.0 m to x = -1.0 m. What is the distance? Displacement?</p></li><li><p>You are driving around a circular track with a diameter of 40 m. You drive around 2 times. How far have you driven? What is your displacement?</p></li><li><p>Speed &amp; Velocity</p></li><li><p>Average Speed = distance traveled / elapsed time of travelUnits: m/s</p><p>*Directionally Independent always positive!</p></li><li><p>You nose out another runner to win the 100.000 m dash. If your total time for the race was 11.800 s and you aced out the other runner by 0.001 s, by how many meters did you win?</p></li><li><p>Velocity: speed AND direction</p></li><li><p>Velocity = displacement/elapsed timeUnits: m/s</p><p>Directionally DEPENDENT! Pick your frame of reference which way is positive &amp; which is negative?</p></li><li><p>Your friend Marsha lives 0.55km east of your house. The nearest grocery store is 0.82km west of your house. You walk from your house to the grocery store for some soda. It takes you 17 minutes to get there, and you spend 3 minutes in the store. Then, in 12 minutes, you walk from the grocery store over to Marshas house. Find the distance you traveled, your displacement, your average speed, and your average velocity.</p></li><li><p>Graph position vs. time for your trip to the grocery store &amp; Marshas house.</p><p>The slope of the line along each interval shows your velocity!</p></li><li><p>Describe the objects motion along each interval.</p></li><li><p>Instantaneous velocity is an objects speed at a point in time.On a position vs. time graph, it equals the slope of the tangent line at any time.</p></li><li><p>t(s)x(m)000.259.850.5017.20.7522.31.0025.61.2527.41.5028.11.7528.02.0027.4</p></li><li><p>Acceleration</p></li><li><p>Review: v=d/tAcceleration: how quickly an objects velocity changesAcceleration can be:Speeding up (v and a are in same direction)Slowing down (different sign for v and a)Changing direction (2-D motion)</p></li><li><p>Units for acceleration are m/s2</p><p>In Physics B, we assume acceleration is constant.</p></li><li><p>Saab advertises a car that goes from 0 to 60.0 mi/h in 6.2s. What is the average acceleration of this car?</p><p>An airplane has an average acceleration of 5.6 m/s2 during takeoff. How long does it take for the plane to reach a speed of 150 mi/h?</p></li><li><p>Instantaneous acceleration can be found by calculating the slope of the tangent line at a point on a velocity vs. time graph.Constant acceleration (in an ideal world): instantaneous a = average a</p></li><li><p>Kinematic Equations</p></li><li><p>A car slows down along the road from 40.0 km/h to 24.0 km/h in just 3.70 seconds. What is the cars acceleration?</p><p>A ball is thrown into the air at a velocity of 15.0 m/s. It is caught at the same height when it is traveling downward at a speed of 15.0 m/s. Find the average velocity of the ball.</p></li><li><p>A ball is dropped (not thrown) from a height of 77.2m. How long does it take to hit the ground below? (neglect air resistance and remember gravitational acceleration= 9.81m/s2)A skydiver is falling at a velocity of 8.2 m/s downward. The parachute is opened, and after falling 19m, the skydiver is falling at a rate of 2.7m/s. What deceleration did the parachute provide?</p></li><li><p>1. A child slides down a hill on a sled with an acceleration of 1.5 m/s2. If she starts at rest, how far has she traveled in (a) 1.0s, (b) 2.0s, and (c) 3.0s?</p></li><li><p>2. On a ride at an amusement park, passengers accelerate straight downward from zero to 45mi/h in 2.2s. What is the average acceleration of passengers on this ride?</p></li><li><p>4. Two cars drive on a straight highway. At time t=0, car 1 passes mile marker 0 traveling due east with a speed of 20.0 m/s. At the same time, car 2 is 1.0 km east of mile marker 0 traveling at 30.0 m/s due west. Car 1 is speeding up with an acceleration of magnitude 2.5 m/s2, and car 2 is slowing down with an acceleration of magnitude 3.2 m/s2. Write x-versus-t equations of motion for both cars.</p></li><li><p>5. Youre driving around town at 12.0 m/s when a kid runs out in front of your car. You brake your car decelerates at 3.5 m/s/s. How far do you travel before stopping? When you have traveled half that distance, what is your speed? How much time does it take to stop?After braking half that time, what is your speed?</p></li><li><p>Objects of different masses/weights fall with the SAME ACCELERATION(at sea level &amp; neglecting air resistance)b. What acts on an object in free fall?-NOTHING but gravity (hence the free)</p></li><li><p>c. Objects in free fall can move down, OR up! </p><p>d. g = 9.81 m/s/s g is always positive 9.81 m/s/s. If your frame of reference says down is negative, use g. *If down is positive and x0=0, then x=1/2 gt2(derived from that super-important eqn)</p></li><li><p>At what acceleration does a 5000kg elephant fall?What about a mouse?</p></li><li><p>You drop a ball from a 120-m high cliffHow long is it in the air?</p><p>What is its speed just before it hits the ground? (at x=0m)</p><p>Sketch x vs t, v vs t, and a vs t graphs for this</p></li></ul>

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