Scientific Notation Review

Chapter 2.1 & 2.4 Measurements & Math Review Scientific Notation Review 4.326 x 108 3.00 x 10-3 7 x 104 • Numbers are represented as a multiple of ___ • Only _____________________ can be placed in front of the decimal, the rest following • Exponent is positive = value ______________ • Move decimal to the _________________ • Exponent is negative = value _____________ • Move decimal to the __________________

Practice Convert to scientific notation: 8270 0.0000078 4.0 56 193,000 0.0036520 Convert to decimal form: 6.07 x 10-2 5.19 x 104 2.33 x 101 4.80 x 10-5 8.42 x 10-3 3.57 x 105

Scientific Notation on Your Calculator • The “____” button is a shortcut for scientific notation. • To type 5.46 x 10-8 : • ______________________ • ______________________ • ______________________ • _____________(exponent) • Should display as _______________________

Practice – Scientific Notation on Your Calculator How would your calculator display the following numbers in “EE” notation? • 8001 • 0.000362 Write the following in standard scientific notation. • 5.62E3 • 1.005E-2

Types of Observations • Qualitative - ____________________________ • Examples: _________________________________ __________________________________________ • “______________________________________” • Quantitative - measurements which have both a ______________________________________ • Examples: __________________, 6.63 x 10-3 Joules • “______________________________________________________________________________”

Relationships between variables • Direct relationship: • __________________________________________ • They are said to be __________________________________________ • Inverse relationship: • __________________________________________ • They are said to be __________________________________________

Standard International System of Units (SI Units) * Not fundamental SI Units (these are derived from other measurements)

Measuring Mass • Using an “electronic balance” • Turn • Press • Place Measuring Volume • The volume of a cube is given by its • Thus, the SI Unit of volume is the meter (m), • 1 cubic meter (1m3) = volume of a cube that is 1m on each edge • Smaller units such as _______(also written _______ ) are commonly used in chemistry

Another unit of volume commonly used is the liter (L)

Common devices used in laboratory for measuring liquid volumes

Uncertainty in Measurement • A measurement always has some degree of __________________________________________________________________________________________ • Consider the following example: Do the grapefruits have the same mass?

In recording measurements, the numbers should be written in a way that reflects the _______________ of the ____________________________________. This is done by recording ________ of the certain digits and the ______________________________ (or ____________________________ ) digit. These numbers are called______________________ _____________________________ The uncertainty in the last digit is usually estimated to be _________________ (unless otherwise indicated) Example: The measurement 1.86 grams actually means ____________________________________________ Uncertainty in Measurement (continued)

What is the uncertainty in each of the following measurements? Uncertainty = Uncertainty = Uncertainty = Uncertainty =

Use each ruler to determine the length of the gray rod and the uncertainty in each measurement ________ Precise! ________ Precise! Length = __________ Uncertainty = _________ Length = __________ Uncertainty = _________ _______________________________________________________________________________

Measuring Volume of Liquids in Lab • Liquids adhere to the sides of a glass container forming a _____________________________ (curved surface) • Accurate reading of volume requires that the ___________ of the meniscus is read at ____________________________

Determine the volume of each liquid and the uncertainty in each measurement Volume = _____________ mL Uncertainty = _____________ Volume = _____________ mL Uncertainty = _____________

Why DoesUncertainty Matter? Suppose a doctor leaves orders in a baby’s chart for a nurse to dispense 2 cc of morphine every 4 hours. • Interpreted as a standard scientific measurement, she assumes the uncertainty is __________________. • Thus a dose between ______________ is acceptable. • For a small baby, this range might mean life or death. Better instructions would be to administer 2.00 cc meaning the uncertainty is ____________. • The acceptable dosage range is __________________ cc.

Rules for Counting Significant Figures Non-Zero Digits - _______________________ • 58 has _______ significant figures (SFs) Leading Zero - _________________________ • 0.0936 has _______ significant figures Captive (Smooshed) Zero - _______________ • 208 has _______ significant figures Trailing Zero with Decimal Point - _______________ • 20.670 has _____ significant figures (SFs) Trailing Zero w/o Decimal Point - ________________ • 2900 has _____ significant figures Exact / Counted Numbers - ____________________ • There are students in the class. - ___________

Sig Figs Practice How many sig figs are in each of the following? 408 = 40800 = 408.00 = 967352 = 0.00467 = 0.004670 = 4.26 x 103 = 4.00 x 103 = 4.0030x 103 =

Rounding to A Certain Number of Significant Figures • Rounding is often necessary to avoid expressing a value to a greater degree of _____________ than is consistent with your ____________________________________. • Remember: the ______________________ digit, reading from left to right in a number, is the first significant figure. • Count the required number of sig figs from left to right. • Look _________ digit beyond the required sig figs: • If it is less than 5, ________________ the remaining digits • If it is 5 or greater, _____________________________ the _____________________________and drop the remaining • *If necessary, add __________ as placeholders (Be careful!) • *If necessary, convert to _____________________________ to make __________________________________________

Some Examples of Rounding: • Round 6502 to 1 sig fig: • Round 6502 to 3 sig figs: • Round 6502 to 2 sig figs: • Round 6502 to 5 sig figs:

Rounding Practice Round 40920.60802 to each of the number of significant figures below. 1 sig fig = 2 sig figs = 3 sig figs = 5 sig figs = 7 sig figs = 9 sig figs =

Significant Figures in Multiplication or Division Calculations • The number of sig figs in the result is the ____________ _______________________________________________________________________________________________________________________________________ • Example:

Significant Figures in Addition or Subtraction Calculations • The result has the _______________________________ ____________________________________________________________________________________________ • Easiest to see when numbers are __________ _____________ • Example:

Significant Figures in Mixed Calculations • Simplify each step to determine correct number of sig figs in final answer. Only round at the ______! • Example:

Rounding Rules • In a series of calculations,_________________ ____________________________________________________________________________ • Determine the appropriate number of sig figs and __________________________________. • Convert to _________________________________ if necessary (to make trailing zeroes significant)

Practice – Perform the following calculations. Express answer in correct sig figs. 7.939 + 6.26 + 11.1 = (27.2 × 15.63) ÷ 1.846 = 137.4 × 5.2 + 121 × 1.77 = Must convert to ____________ ____________to make the ___ significant

Precision and Accuracy in Measurements Precision – ____________________________________ ______________________________________________ - Check by _________________________________ Accuracy – ____________________________________ ______________________________________________ - Check by using a ___________________________ to measure

Percent Error Percentage error is a way for scientists to express ______________________________________________________________________________________ The formula is: Example: Determine the percentage error if the value obtained in lab was 1.24 g while the accepted value is 1.30 g.

Metric Prefixes used to modify units(You must memorize these!) Pneumonic Device:

Metrix Units / Prefixes Review Rank the following from smallest to largest: • milliliter, megaliter, microliter, liter • centimeter, decimeter, dekameter, hectameter What unit would you use to measure the following? • The distance from Marymount to your house? _______ • The length of this room? _______ • The mass of a bag of oranges? _______ • The mass of an ant? ______

Metric Conversion Problems: • How many millimeters are in 3.2 Mm? • Convert 175 micrometers to hm.

Density • Density is defined as the __________________ ______________________________________ • Density = __________________________________ • Units: ______________ or _____________ • The density of a substance is inherent to that substance, but ____________________ slightly with a temperature increase, and vice versa • Density of water at 15°C = _____________________ • Density of water at 25°C (ice) = _________________

Density of Selected Substances at 25°C Would a block of wood float or sink in air? Would a block of wood float or sink in ethanol? Which material in the table has the most particles packed together in the smallest volume?

Note: ALWAYS express the answer in the correct number of significant figures!! Density Sample Problems: Calculate the density of mercury if 1.000 x 102 g occupies a volume of 7.36 cm3. Calculate the volume of 65.0 g of the liquid methanol if its density is 0.791 g/mL.

Water Displacement Density Lab • Measure ______ of object • Determine _____________ by water displacement  • Divide ________ by ___________ to determine density file:///Users/lsthilaire/Downloads/water_displacement.swf ORhttp://www.middleschoolchemistry.com/multimedia/chapter3/lesson2#water_displacement

Scientific Notation Review

Scientific Notation Review

Presentation Transcript

Scientific Notation

Scientific Notation

Scientific Notation

Scientific Notation

SCIENTIFIC NOTATION

Scientific Notation

Scientific Notation

Scientific Notation

Scientific Notation

Scientific Notation

SCIENTIFIC NOTATION

Scientific Notation

Scientific notation

Scientific Notation

Scientific Notation

SCIENTIFIC NOTATION

Scientific Notation

Scientific Notation

Scientific Notation

Scientific Notation

SCIENTIFIC NOTATION

Scientific Notation