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1.2: Essential Background

  • Page ID
    92763
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    Most STEM courses, especially those at the college/university level, assume that their students have had prior courses in general science, and often in physics, which provide them with an understanding of important concepts such as significant figures, units of measure, treatment measurement error, density and buoyancy. But if most of that has receded into the fuzzy past, the six sections of this unit will bring you up to speed. Neglect this stuff at your peril — it will come up in over and over.

    Most of this chapter deals with chemistry, and comes from a chemistry text.  The bias of a chemistry course will remain in this chapter, but less relevant infromation has been deleted. The background of both physics and chemistry is essential for materials science, and the understanding of electronic and electrical devices.

    • 1.2.1: Classification and Properties of Matter
      Matter is “anything that has mass and occupies space”. Matter is what chemical substances are composed of. But what do we mean by chemical substances? How do we organize our view of matter and its properties? These very practical questions will be the subjects of this lesson.
    • 1.2.2: Energy, Heat, and Temperature
      All chemical changes are accompanied by the absorption or release of heat. The intimate connection between matter and energy has been a source of wonder and speculation from the most primitive times; it is no accident that fire was considered one of the four basic elements (along with earth, air, and water) as early as the fifth century BCE. This unit will cover only the very basic aspects of the subject.
    • 1.2.3: The Measure of Matter
      The natural sciences begin with observation and this usually involves numerical measurements of quantities. Most of these quantities have units of some kind associated with them, and these units must be retained when you use them in calculations. All measuring units can be defined in terms of a very small number of fundamental ones that, through "dimensional analysis", provide insight into their derivation and meaning, and must be understood when converting between different unit systems.
    • 1.2.4: The Meaning of Measure
      The "true value" of a measured quantity, if it exists at all, will always elude us; the best we can do is learn how to make meaningful use of the numbers we read off of our measuring devices. The other kind of numeric quantity that we encounter in the natural sciences is a measured value of something– the length or weight of an object, the volume of a fluid, or perhaps the reading on an instrument. Although we express these values numerically, it would be a mistake to regard them as the kind of
    • 1.2.5: Significant Figures and Rounding off
      The numerical values we deal with in science (and in many other aspects of life) represent measurements whose values are never known exactly. Our pocket-calculators or computers don't know this; they treat the numbers we punch into them as "pure" mathematical entities, with the result that the operations of arithmetic frequently yield answers that are physically ridiculous even though mathematically correct.


    This page titled 1.2: Essential Background is shared under a CC BY 3.0 license and was authored, remixed, and/or curated by Stephen Lower via source content that was edited to the style and standards of the LibreTexts platform.