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Measuring with SI Units: Basics and Conversions

Learn about the International System of Units (SI) and how to measure length, volume, mass, temperature, and energy. Understand the common SI base units used in chemistry and their conversions.

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Measuring with SI Units: Basics and Conversions

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  1. International System of Units 3.2

  2. The International System of Units 3.2 • In the signs shown here, the distances are listed as numbers with no units attached. Without the units, it is impossible to communicate the measurement to others. When you make a measurement, you must assign the correct units to the numerical value.

  3. 3.2 Measuring with SI Units • Measuring with SI Units • Which five SI base units do chemists commonly use?

  4. 3.2 Measuring with SI Units • All measurements depend on units that serve as reference standards. The standards of measurement used in science are those of the metric system. • The International System of Units (abbreviated SI, after the French name, Le Système International d’Unités) is a revised version of the metric system.

  5. 3.2 Measuring with SI Units • The five SI base units commonly used by chemists are the meter, the kilogram, the kelvin, the second, and the mole.

  6. 3.2 Units and Quantities • Units and Quantities • What metric units are commonly used to measure length, volume, mass, temperature and energy?

  7. 3.2 Units and Quantities • Units of Length • In SI, the basic unit of length, or linear measure, is the meter (m). For very large or and very small lengths, it may be more convenient to use a unit of length that has a prefix.

  8. 3.2 Units and Quantities • Common metric units of length include the centimeter, meter, and kilometer.

  9. 3.2 Units and Quantities • Units of Volume • The SI unit of volume is the amount of space occupied by a cube that is 1 m along each edge. This volume is the cubic meter (m)3. A more convenient unit of volume for everyday use is the liter, a non-SI unit. • A liter (L) is the volume of a cube that is 10 centimeters (10 cm) along each edge (10 cm  10 cm  10 cm = 1000 cm3 = 1 L).

  10. 3.2 Units and Quantities • Common metric units of volume include the liter, milliliter, cubic centimeter, and microliter.

  11. 3.2 Units and Quantities • The volume of 20 drops of liquid from a medicine dropper is approximately 1 mL.

  12. 3.2 Units and Quantities • A sugar cube has a volume of 1 cm3. 1 mL is the same as 1 cm3.

  13. 3.2 Units and Quantities • A gallon of milk has about twice the volume of a 2-L bottle of soda.

  14. 3.2 Units and Quantities • Units of Mass • The mass of an object is measured in comparison to a standard mass of 1 kilogram (kg), which is the basic SI unit of mass. • A gram (g) is 1/1000 of a kilogram; the mass of 1 cm3 of water at 4°C is 1 g.

  15. 3.2 Units and Quantities • Common metric units of mass include kilogram, gram, milligram, and microgram.

  16. 3.2 Units and Quantities • Weight is a force that measures the pull on a given mass by gravity. • The astronaut shown on the surface of the moon weighs one sixth of what he weighs on Earth.

  17. 3.2 Units and Quantities • Units of Temperature • Temperature is a measure of how hot or cold an object is. • Thermometers are used to measure temperature.

  18. 3.2 Units and Quantities • Scientists commonly use two equivalent units of temperature, the degree Celsius and the kelvin.

  19. 3.2 Units and Quantities • On the Celsius scale, the freezing point of water is 0°C and the boiling point is 100°C. • On the Kelvin scale, the freezing point of water is 273.15 kelvins (K), and the boiling point is 373.15 K. • The zero point on the Kelvin scale, 0 K, or absolute zero, is equal to 273.15 °C.

  20. 3.2 Units and Quantities • Because one degree on the Celsius scale is equivalent to one kelvin on the Kelvin scale, converting from one temperature to another is easy. You simply add or subtract 273, as shown in the following equations.

  21. 3.2 Units and Quantities • Conversions Between the Celsius and Kelvin Scales

  22. 3.4

  23. 3.4

  24. 3.4

  25. 3.4

  26. for Sample Problem 3.4 Problem Solving 3.17 Solve Problem 17 with the help of an interactive guided tutorial.

  27. 3.2 Units and Quantities • Units of Energy • Energy is the capacity to do work or to produce heat. • The joule and the calorie are common units of energy.

  28. 3.2 Units and Quantities • The joule (J) is the SI unit of energy. • One calorie (cal) is the quantity of heat that raises the temperature of 1 g of pure water by 1°C.

  29. 3.2 Units and Quantities • This house is equipped with solar panels. The solar panels convert the radiant energy from the sun into electrical energy that can be used to heat water and power appliances.

  30. 3.2 Section Quiz. • 3.2.

  31. 3.2 Section Quiz. • 1. Which of the following is not a base SI unit? • meter • gram • second • mole

  32. 3.2 Section Quiz. • 2. If you measured both the mass and weight of an object on Earth and on the moon, you would find that • both the mass and the weight do not change. • both the mass and the weight change. • the mass remains the same, but the weight changes. • the mass changes, but the weight remains the same.

  33. 3.2 Section Quiz. • 3. A temperature of 30 degrees Celsius is equivalent to • 303 K. • 300 K. • 243 K. • 247 K.

  34. END OF SHOW

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