PHYSICS%20Lecture%203%20Free%20Fall - PowerPoint PPT Presentation

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PHYSICS%20Lecture%203%20Free%20Fall

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PHYSICS Lecture 3 Free Fall Southern Boone County High School Bill Palmer Physics-Free Fall All freely falling objects fall at the same rate-Galileo 1600s Neglecting ... – PowerPoint PPT presentation

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Title: PHYSICS%20Lecture%203%20Free%20Fall


1
PHYSICSLecture 3Free Fall
  • Southern Boone County High School
  • Bill Palmer

2
Physics-Free Fall
  • All freely falling objects fall at the same
    rate-Galileo 1600s
  • Neglecting the effects of air
  • True in air or water
  • Galileo Diluted gravity by rolling things down
    ramps (sound familiar?)
  • Leaning Tower of Pisa

3
Physics-Free Fall
  • gAcceleration due to gravity
  • Slight differences at various spots on earth due
    to due to uneven distribution of mass over
    earths surface
  • Think of g over a iron mine vs. g over ocean
  • g9.80 m/s2
  • For each second an object falls the downward
    velocity increases by 9.80 m/s

4
Physics-Free Fall
  • What if a ball is thrown up?
  • The ball slows down so a is negative.
  • a -g -9.80 m/s2

5
Physics-Free Fall
  • Throw a ball upward with a velocity of 20 m/s.
  • Gravity slows the velocity at a rate of 9.80 m/s
  • So, after 1 sec the ball has slowed from 20 m/s
    9.80 m/s 10.2 m/s
  • After 2 sec the ball has slowed another 9.80 m/s
    or 10.2 m/s 9.8 m/s .4 m/s

6
Physics-Free Fall
  • What happens after three seconds?
  • .4 m/s 9.80 m/s - 9.4 m/s
  • Now the ball is going down
  • At 4 seconds the ball is moving down at 9.4 m/s
    plus another 9.80 m/s 19.2 m/s
  • At about 2 sec, the balls velocity is 0

7
Physics-Free Fall
  • The Demon Drop is a ride at an amusement park
    where a car falls freely for 1.5 sec after
    starting from rest.
  • What is its velocity at the end of 1.5 s?
  • How far did it fall?

8
Physics-Free Fall
  • A brick is dropped from a high scaffold.
  • What is its velocity after 4.0 s?
  • How far does the brick fall in this time?

9
Physics-Free Fall
  • A brick is dropped from a high scaffold.
  • What is its velocity after 4.0 s?
  • How far does the brick fall in this time?
  • Answer - 39 m/s
  • Answer -78 m (downward)

10
Physics-Free Fall
  • A tennis ball is thrown straight up with an
    initial speed of 22.5 m/s. It is caught at the
    same distance above ground.
  • How high did the ball rise?
  • How long does the ball stay in the air? (hint)
    time to rise is same as time to fall

11
Physics-Free Fall
  • A tennis ball is thrown straight up with an
    initial speed of 22.5 m/s. It is caught at the
    same distance above ground.
  • How high did the ball rise? A25.8 m
  • How long does the ball stay in the air? (hint)
    time to rise is same as time to fall
  • 2.3s going up so 2.3s 2.3s 4.6 s total

12
Physics-Free Fall
  • A spaceship far from any star or plant
    accelerates uniformly from 65.0 m/s to 162 m/s in
    10.0 sec. How far does it move?

13
Physics-Free Fall
  • A spaceship far from any star or plant
    accelerates uniformly from 65.0 m/s to 162 m/s in
    10.0 sec. How far does it move?
  • Answer 1.14 x 103 m

14
Physics-Free Fall
  • In English system, g equals 32 ft/s2
  • Try these problems

15
Physics-Free Fall
  • Mr. Palmer takes some students rock climbing.
  • Ditzy Nicole is watching from the top of a cliff.
    She slips and falls of the cliff and her body
    crashes into the ground directly below 4.6 s
    later.
  • How high was the cliff?
  • How fast was she going when she hit the ground?
    (f/s and m/h)

16
Physics-Free Fall
  • Mr. Palmer takes some students to a pit cave.
    They have a 600 f rope. To find out if their rope
    is long enough they throw a rock into the cave
    and watch it hit the bottom (why dont they just
    listen?) The rock takes 3.5 seconds to hit the
    bottom. Is the rope long enough?

17
Physics
  • Complete the following 10 problems page 107-115
    33, 38, 44, 47, 54, 57, 62, 66, 70, 76.
  • Critical thinking problemsgtgtgtwork in teams of
    two. Problems 77, 78, 79
  • Review these on Monday
  • Test on Wednesday
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