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2014-2015 Chem I Honors Unit 2 Notes: Numbers in ChemistryMeasurementMeasurements and calculations applied to those measurements allow us to determine some of the quantitative properties of a substance. For example, we measure mass and volume, and can calculate density.Scientific NotationMeasurements and calculations often require the use of very large or very small numbers. To make the numbers easier to handle, we use scientific notation. All numbers are represented by a number between 1 and 10, which is multiplied by a power of 10. If the decimal point moved to the left then the power is positive, if it moved to the right then it is negative.Example 1: convert 42000 to scientific notation.Multiply 4.2 times 10 to the power that makes it equal to 42000. Since the decimal moved 4 places to the left to make it 4.2, the power of 10 used is +4.42000 = 4.2 x 104Practice 1: Convert 528,000 to scientific notation.Example 2: Convert 0.00012 to scientific notation.Multiple 1.2 times 10 to the power that makes it equal to 0.00012. Since the decimal moved 4 places to the right, the power of 10 used is -4.0.00012 = 1.2 x 10-4Practice 2: Convert 0.000006450 to scientific notation.Task 11.Convert the following numbers to scientific notation.245003560.0009850.222122002. Convert the following scientific notation numbers to non-scientific notation numbers.4.2 x 1032.15 x 10-43.14 x 10-69.22 x 1059.57 x 102Uncertainty, Significant Figures, and RoundingWhen taking a reading on a piece of laboratory equipment such as a graduated cylinder, there is always a degree of uncertainty in the recorded measurement. The reading falls between divisions on the scale, so you need to estimate between the divisions. The estimated digit is said to be uncertain, and is reflected in the reading with a +/-. All of the digits that can be recorded with certainty are said to be certain. The certain and the uncertain together are called significant figures. The reading below is certain to the 1s place and uncertain to the tenth place (estimated between the 1s) so the reading is 43.1 +/- 0.1. There are 3 significant figures in the measurement.201168011232000What are the following readings? How many significant figures are there?293013420070900332691683900In the case of a digital reading, all digits in the readout are considered to be significant. 200025017018000The reading above is 12.68 g +/- .01. There are 4 sig figs in the reading.Significant Figures in CalculationsWhen doing calculations with measurements, there are rules about how many numbers the calculated value should carry, based on the significant figures in each measurement. To determine the number of significant figures in a number use the following rules.Any nonzero integers are always significant.Leading zeros (the ones that precede the non-zero digits) are never significant.Sandwiched zeros are always significant.Trailing zeros (at the end of a number) are only significant if there is a decimal point in the number.Exact numbers (counts) have an infinite number of significant figures.In scientific notation the 10x part is never significant.Or Use the “Atlantic Pacific Rule”182836029376100Pacific Side Atlantic SideWhen counting sig figs in a number, check to see if a decimal is Present, or Absent.If Present – start counting from the Pacific side of the number. Start with the first NON-ZERO and count everything, left to right.If Absent - start counting from the Atlantic side of the number. Start with the first NON-ZERO and count everything, right to left.Task 224,0002.400.000240.0024000.02040240,00224.200024.0022.40 x102Significant Figures in Calculations1. When multiplying or dividing: Limit the answer to the same number of significant figures as the number with the fewest number of significant figures.2. When adding or subtracting: Limit the answer to the same number of decimal places that appear in the number with the fewest number of decimal places.i.e., don’t record a greater degree of significant figures or decimal places in the calculated answer than the weakest data will allow.RoundingCalculators often give many more figures in the answer to a calculation than the significant ones. As a result many of the numbers in the answer are meaningless, and the answer needs to be rounded.In a multi-step calculation there are 3 options:Leave all numbers on the calculator in the intermediate steps, and leave the rounding until the end.Round to the correct number of figures in each step.Round to an extra figure in each intermediate step and then round to the correct number of significant figures at the end of the calculation. In most cases it is preferable to leave numbers on the calculator and round at the end.Whichever method you use, if the digit directly to the right of the final significant figure is less than 5 then the preceding digit stays the same, if it is equal to or greater than 5 round it up.Task 3 : Use a calculator to carry out the following calculations and record the answer with the correct number of significant figures.(a) (34.5) (23.46)(b) 123 / 3(c) (2.61 x 10-1) (356)(d) 21.78 + 45.86(e) 23.888897 - 11.2(f) 6 - 3.0SI unitsUnits tell us the scale that is being used for measurement. Prefixes are used to make writing very large or very small numbers easier. SI Units Used in Chemistry – MEMORIZE!Base UnitName of UnitSymbolMassKilogramKgLengthMetermTimeSecondsAmount of substanceMolemolTemperatureKelvinKPrefixes we will use in Chemistry-MEMORIZE!PrefixSymbolMeaningExample using metersKilok1031km = 103 mDecid10-11dm = 10-1mCentic10-21 cm = 10-2mMillim10-31mm = 10-3mMicro?10-61 ?m = 10-6mNanon10-91nm = 10-9mTask 4: Fill in the following1m = _______ km1m = _______ dm1m = _______ cm1m = _______ mm1m = _______ ?m1m = _______ nmConverting units using dimensional analysis. (Factor label method)One unit can be converted to another by multiplying by an equality called a conversion factor.DO NOT memorize the conversion factors below. They will be provided for you on a test or quiz.-263769194994004 cups = 1 qt4 qt = 1 gal2 pt = 1 qtUsing Conversion FactorsThere are 2.54 cm in exactly 1 inch, therefore the equality is 2.54 cm = 1.00 in.We can use the equality in one of two ways in a conversion problem:2.54 cm1.00 in or 1.00 in2.54 cmThe one used is the one that allows you to cancel the unit you don’t want, remembering that dividing a unit by the same unit equals 1.Example 3: To convert 5.00 cm to inches, use the form of the equality on the right, above.5.00 cm x 1.00 in2.54 cm = _________ inExample 4: To convert 5.00 inches to cm, use the form of the equality on the left:Task 5: Convert the following quantities from one unit to the other using the conversion chart above. 30 m to miles1500 yd to miles206 miles to m34 kg to lbs34 lbs to kgTemperatureTemperature is considered the “hotness” of matter. It is a reflection of the kinetic energy of the particles of matter in the sample. The faster the particles of matter are moving, the higher the temperature. Temperature determines the direction of heat flow. Heat flows spontaneously from hotter matter to cooler matter.In scientific measurements, the Celsius and Kelvin scales are most often used.The Celsius scale is based on the properties of water.Freezing Point of water=Boiling Point of water=The kelvin is the SI unit of temperature.It is based on the properties of gases.There are no negative Kelvin temperatures.The lowest possible temperature is called absolute zero (0 K).K = C + 273.15The Fahrenheit scale is not used in scientific measurements, but you hear about it in weather reports!304800026543000The equations below allow for conversion between the Fahrenheit and Celsius scales:F = 9/5(C) + 32C = 5/9(F ? 32)Task 6 Convert the following temperatures from one unit to the other.263 K to °F38 K to °F13 °F to °C1390 °C to K3000 °C to °F When evaluating a change in temperature, does it matter if the change is recorded in Celsius or Kelvin?Derived UnitsVolumeAll other units can be derived from base units. The most important derived unit in Chemistry is volume. Volume has units of length3. (m3, cm3 etc.) Common units for volume are liters, or mit these relationships to memory!1 cm3 = 1mL1L = 1000mLExample 5: What is the volume in cm3 of a box that is 1.5 cm long, 1.0 cm wide, and 0.5 cm deep? What is this volume in mL? In L?Task 7: What is the volume of a pool in L if it is 25 m long, 10 m wide, and 6 ft. deep?DensityDensity is a physical property of a substance. It is a measure of the compactness of matter. It varies with the temperature.Density = massvolume Typical Units of Density are g/mL for liquids or g/L for gasesExample 7: What is the density of a liquid that has a mass of 10.76 grams and a volume of 11.9 mL?Specific Gravity: Related to density, specific gravity is the ratio of the density of a substance to the density of a standard, which is water. Since the density of water is 1 g/mL, specific gravity is the same number as density, with no units. Example 8: Mazola corn oil has a density of 0.875 g/mL. What is its specific gravity?Example 9: A bottle with a yellow liquid in it has a mass of 5.96 grams. The mass of the bottle alone is 1.87 grams. The volume of liquid in the bottle is 5.06 mL. Calculate the specific gravity of the liquid.Using Density and Specific Gravity as a conversion factorDensity or specific gravity are often used to convert mass to volume and volume to mass. Example 10: What is the mass of water needed to fill the pool described in example 6?Accuracy and PrecisionAccuracy refers to how close the measured value is to the actual value of the quantity. Precision refers to how close several measurements of the same quantity are to one another. 57433314248400 Task 8Consider three sets of data that have been recorded after measuring a piece of wood that is exactly 6.000 m long.Set 1Set 2Set 35.8646.0025.8725.8786.0045.868Average Length5.8716.0035.870Which set is most accurate?Which set is most precise?Percent ErrorThe data that comes from experiments often differs from the actual value. Percent error is a way to express the accuracy of experimental data.17994923054353037840571500% Error=Actual-ExperimentalActual x 100 ................
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