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Foundations%20of%20Physical%20Science

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Title: Foundations%20of%20Physical%20Science


1
Foundations of Physical Science
  • Unit One Forces and Motion

2
Chapter 1 Science and Measurement
  • 1.1 Time and Distance
  • 1.2 Investigations and Experiments
  • 1.3 Speed

3
Learning Goals
  • Accurately measure time using electronic timers
    and photogates.
  • Use decimals to represent fractions of a second.
  • Develop a research question or hypothesis that
    can be tested.
  • Identify the variables that affect motion.
  • Develop an experimental technique that achieves
    consistent results.

4
Learning Goals (continued)
  • Draw conclusions from experimental results.
  • Accurately measure distance.
  • Identify metric and English units of distance.
  • Convert between units of distance.
  • Calculate speed in units of inches per second,
    feet per second, and centimeters per second.

5
Vocabulary
  • cause and effect
  • controlled experiment
  • controlled variables
  • distance
  • English system
  • experiment
  • experimental technique
  • experimental variable
  • hypothesis
  • investigation
  • length
  • measurement
  • metric system
  • procedure
  • research question
  • scientific evidence
  • scientific method
  • second
  • time
  • trial
  • variables

6
1.1 Time and Distance
7
Two Ways to Think about Time
  • What time is it?
  • How much time?

8
How is Time Measured?
  • Time comes in mixed units.
  • Seconds are very short.
  • Hours and minutes are more convenient for
    everyday time measurement.

9
Electronic Timers
  • Have displays that show mixed units.
  • To read a timer you need to recognize and
    separate out the different units.
  • Colons () separate the units.

10
Measuring Distance
  • Describes how far it is from one point to another
  • Measured in units of length
  • Two common systems of units
  • English (inches, feet, miles)
  • Metric (millimeters, centimeters, meters,
    kilometers)

11
Measurement and the English System
12
Measurement and the Metric System
13
Measurement
  • Units were invented so people could communicate
    amounts to each other.

14
1.2 Investigations and Experiments
15
Designing Experiments
  • How do we ask questions and get answers from
    nature?

16
Experiment
  • Any situation we set up to observe what happens.
  • In science, we usually plan our experiments to
    give us measurements, which are observations we
    can record and think about.
  • Experiments have questions associated with them.
  • Experiments are the way we ask questions of
    nature.

17
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18
Scientific Method
  • Developed by Galileo and the English philosopher
    Francis Bacon in the 16th century
  • Based on rational thinking and experimentation

19
Designing Experiments
  • Start with a good question
  • Identify all the factors when designing
    experiments
  • Variables
  • Change 1 thing at a time
  • Control variables and experimental variables

20
Hypothesis
  • An educated guess about what will happen

21
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22
Experimental Techniques
  • Experiments often have several trials
  • Experimental technique
  • Procedures
  • Scientific results must always be repeatable

23
Limitations
  • Science deals only with hypotheses that are
    testable
  • Science is restricted to the observable natural
    world
  • Supernatural above nature cannot be explained
  • Philosophical questions cannot be answered

24
Pseudoscience
  • Some belief systems are not science but pretend
    to be
  • Phrenology the study of the surface bumps on a
    persons head to identify health and personality

25
Pseudoscience
  • Astrology the study of the stars and planets and
    their movements as well as their affects on the
    lives and behavior of human beings

26
The Search For Order
  • Science
  • Art
  • Religion

27
Technology
  • Practical use of the findings of science
  • Science concerned with gathering knowledge and
    organizing it
  • Technology lets humans use that knowledge for
    practical purposes, and it provides the
    instruments scientists need to conduct their
    investigations

28
Technology
  • Can be helpful and can be harmful
  • Example find fossil fuels used in countless ways
    while damaging the environment
  • Technology is our tool to fix these problems

29
The Sciences
  • Life Sciences biology, zoology, botany, etc.
  • Physical Sciences physics, chemistry, gemology,
    meteorology, astronomy

30
1.3 Speed
31
What is Speed and How is it Measured?
32
What Do We Mean By Speed?
  • The speed of an object is a measure of how
    quickly the object gets from one place to
    another.
  • To determine a speed, you need to know two
    things
  • the distance traveled.
  • the time taken.

33
Speed
distance traveled (m)
v d t
speed (m/sec)
time taken (sec)
34
Whats the v for?
  • Speed the distance covered per unit of time
  • Velocity speed and the direction of an object
  • Speed 60 km/h
  • Velocity 60 km/h due East
  • Vector Quantity a quantity that specifies both
    magnitude and direction (example velocity)

35
Concepts of Speed and Velocity
  • Constant speed steady speed doesnt speed up or
    slow down
  • Constant velocity both constant speed and
    constant direction

36
How to Solve Scientific Problems
  • Step 1
  • Identify what you are asked.
  • Step 2
  • Write down what you are given.
  • Step 3
  • Write down any relationships you know that
    involve any of the information you are asked, or
    given.
  • Step 4
  • Pick which relationship to start with and try to
    arrange it to get the variable you want on the
    left-hand side of an equal sign.
  • Step 5
  • Plug in the numbers and get the answer

37
Example
  • What is the average speed of a cheetah that
    sprints 100m in 4s? How about if it sprints 50m
    in 2s?
  • In both cases the answer is 25 m/s
  • Average speed distance covered 100m 50m
    25m/s
  • time interval 4s 2s

38
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