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AQA GCSE Physics 21 Motion

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Copy the equation for speed, along with the units used, at the bottom of page 120. ... It is unlikely that ALL cars exceeded the speed limit. ... – PowerPoint PPT presentation

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Title: AQA GCSE Physics 21 Motion


1
AQA GCSE Physics 2-1Motion
  • GCSE Physics pages 120 to 131

2
AQA GCSE Specification
  • DESCRIBING MOVEMENT
  • 12.1 How can we describe the way things move?
  • Using skills, knowledge and understanding of how
    science works
  • to construct distance-time graphs for a body
    moving in a straight line when the body is
    stationary or moving with a constant speed
  • to construct velocity-time graphs for a body
    moving with a constant velocity or a constant
    acceleration
  • HT to calculate the speed of a body from the
    slope of a distance-time graph
  • HT to calculate the acceleration of a body from
    the slope of a velocity-time graph
  • HT to calculate the distance travelled by a body
    from a velocity-time graph.
  • Skills, knowledge and understanding of how
    science works set in the context of
  • The slope of a distance-time graph represents
    speed.
  • The velocity of a body is its speed in a given
    direction.
  • The acceleration of a body is given by
  • acceleration change in velocity / time taken
    for change
  • The slope of a velocity-time graph represents
    acceleration.
  • The area under a velocity-time graph
    represents distance travelled.

3
Distance-time graphsNotes questions from pages
120 121
  • Copy the equation for speed, along with the units
    used, at the bottom of page 120.
  • Copy Figure 2 on page 120 and explain how a
    distance-time graph can be used to find speed.
  • Copy and answer question (a) on page 120.
  • Copy Figure 3 on page 121 and then copy and
    answer questions (b), (c) and (d) on page 121.
  • Copy the Key Points on page 121.
  • Answer the summary questions on page 121.

4
Distance-time graphs ANSWERS
  • In text questions
  • It would not have been as steep.
  • 25 m/s
  • 600 s
  • 11.1 m/s
  • Summary questions
  • (a) Speed
  • (b) Speed, distance. (c) Speed.
  • (a) 30 m/s
  • (b) 9000 m

5
Velocity and acceleration Notes questions from
pages 122 123
  • Explain the difference between speed and
    velocity.
  • Explain how it is possible to be moving with a
    constant speed while changing in velocity.
  • Copy and answer question (a) on page 122.
  • (a) What is acceleration? (b) Copy the equation
    for acceleration, along with the units used, on
    page 123.
  • Repeat the worked example shown on page 123 but
    this time change the time taken to 9 seconds.
  • Copy and answer question (b) on page 123.
  • Explain the meaning of deceleration.
  • Copy the Key Points on page 123.
  • Answer the summary questions on page 123.

6
Velocity and acceleration ANSWERS
  • In text question
  • 600 m
  • 2.5 m/s2
  • Summary questions
  • (a) Speed.
  • (b) Acceleration.
  • (c) Velocity.
  • (a) 20 m/s
  • (b) 2.5 m/s2

7
More about velocity-time graphs Notes questions
from pages 124 125and also page 123
  • Copy Figure 4 from page 123 graph X ONLY.
  • Explain how acceleration can be found from a
    velocity-time graph and hence find the
    acceleration represented by graph X.
  • Copy Figure 3 from page 125 and describe the
    motion shown by this graph. You should include a
    calculation of the deceleration caused by
    braking.
  • Copy and answer question (b) on page 125.
  • How can distance travelled be found from a
    velocity-time graph?
  • Copy and answer question (c) on page 125.
  • Copy the Key Points on page 125.
  • Answer the summary questions on page 125.

8
More about velocity-time graphs ANSWERS
  • In text questions
  • Less steep
  • It would not be as steep
  • Greater
  • Summary questions
  • 1. 1.B 2.A 3.D 4.C
  • 2. (a) A (b) C

9
Using graphs Notes questions from pages 126 127
  • Copy and answer questions (a) and (b) on page
    126.
  • Copy Figure 3 on page 126 and copy the
    calculations of the acceleration and the distance
    travelled over the ten second period shown on
    page 127.
  • Copy the Key Points on page 127.
  • Answer the summary questions on page 127.
  • NOTE Graph paper needed for Q2.

10
Using graphs ANSWERS
  • In text questions
  • 15 m/s
  • The speed decreased gradually and became
    constant.
  • Summary questions
  • (a) The cyclist accelerates with a constant
    acceleration for 40s, and then decelerates to a
    standstill in 20s.
  • (b) (i) 0.2 m/s2
  • (ii) 160 m
  • 2. (a) Graph
  • (b) 2 m/s2
  • (c) (i) 400m
  • (ii) 400 m

11
Transport issues Notes questions from pages 128
129
  • Answer questions 1 and 2 on page 128.

12
Transport issues ANSWERS
  • (a) (i) 5 litres (ii) 4 litres
  • (b) 1.70
  • Journey 1 6.7 km/h
  • Journey 2 4000 km/h

13
How Science Works ANSWERS
  • They were base on non-scientific evidence. It
    could be hearsay or even prejudice. It is
    unlikely that ALL cars exceeded the speed limit.
  • Difficult to prove a casual relationship here.
    Evidence would be needed from both before and
    after the installation of road bumps at both
    sites.
  • Time for cars to cover a suitable distance
    recorded. Speed distance / time.
  • Survey should be carried out at sample times at
    regular intervals during the day, for example 10
    minutes every hour. A fair test with valid
    results.
  • As many as possible, but at least 10 in each
    sample. A preliminary test could be used to
    determine the best number and how often.
  • No. Otherwise drivers might behave differently.
    This is part of the control in such surveys.
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