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Chapter 1 Chemical Foundations

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Title: Chapter 1 Chemical Foundations


1
Chapter 1 Chemical Foundations
  • AP Chemistry

2
Goals 1 9
  • Differentiate between the term theory and law.
  • Differentiate between physical and chemical
    properties.
  • Differentiate between physical and chemical
    changes.
  • Understand uncertainty in measurement.
  • Determine significant figures from measurements
    and apply these values in calculations.
  • Explain the difference between accuracy and
    precision.
  • Explain the difference between random error and
    systematic error.
  • Use dimensional analysis to convert between
    different units of measure.
  • Classify matter as an element, compound, or
    mixture.

3
What is Chemistry?
  • Study of the structure, properties, and
    composition of matter, and the changes that
    substances undergo
  • Study of matter and change

4
How is Chemistry Done?
  • The Scientific Method
  • Making observations (collecting data)
  • Making a prediction (hypothesis)
  • Doing experiments to test the prediction

5
Scientific Method Leads to
  • Theory - model attempting to explain natural
    phenomena
  • Natural law summary of observed behavior
  • TWO VERY DIFFERENT OUTCOMES!

6
How are Observations Made?
  • Qualitative Observations descriptive,
    nonnumerical results
  • EX blue, hot, large
  • Quantitative Observations numerical observation
    including a scale
  • EX 1.0 m, 100 K

7
Units of Measurement
  • Fundamental SI Units (know the prefixes on p. 9)

8
Precision vs. Accuracy
  • Accuracy agreement of a value with the true
    value
  • Precision degree of agreement among several
    measurements of the same quantity

9
Types of Error
  • Random error measurement has an equal
    probability to be high or low
  • Systematic error measurement is always either
    high or low

10
Uncertainty in Measurement
  • Every Measurement has some degree of uncertainty
  • Uncertainty is accounted for by always recording
    certain digits and the first uncertain digit
  • These numbers are called significant figures

11
How are Significant Figures Determined?
  • Nonzero integers are always significant
  • Zeros
  • Leading zeros are never significant
  • Captive zeros are always significant
  • Trailing zeros are significant if the number
    contains a decimal point
  • Exact numbers are infinitely significant
  • Seek handout for additional practice

12
Significant Figures in Calculations
  • Multiplication or Division
  • The number of significant figures in the result
    is the same as the number in the least precise
    measurement used in the calculation
  • Addition or Subtraction
  • The result has the same number of decimal places
    as the least precise measurement in the
    calculation

13
Dimensional Analysis
  • Method used to convert from one unit to another
  • Steps
  • Use the equivalence statement that relates the
    two units
  • Derive the appropriate unit factor to cancel the
    unwanted units
  • Multiply the quantity to be converted by the unit
    factor to give the quantity with the desired units

14
Classification of Matter
  • Matter anything occupying space and having mass
  • States of Matter solid, liquid, gas

15
Mixtures
  • Variable composition
  • Homogeneous visibly indistinguishable parts
    (solution)
  • Heterogeneous visibly distinguishable parts

16
Separating Mixtures
  • Mixtures can be separated into pure substances
    using physical changes
  • Physical change change in form, not chemical
    composition
  • Pure substance constant composition (elements
    and compounds)

17
Separating Compounds
  • Compound substance with constant composition
    that can be broken down into elements by chemical
    processes
  • Chemical change change resulting in a new
    substance
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