Chirp! Chirp! Welcome! Instructor: Anne Yu SN 109, x74252 Lab Assistant: Jane Xu ‘12

Locker Assignments

CHEMISTRY 1A LABORATORY SCHEDULE FOR FIRST DAY  Introduction, discussion of policies, how to properly keep your lab manual, safety video (Room 111)  Lab tour and safety demo (Room 122)  Balance demo & check-out (Room 122)  Data analysis lecture (Room 111)  Balance exercise (Room 122)

Data Analysis How to make measurements and treat data properly… Reading Assignment Oxtoby text : Appendix A1-4 Appendix B1-2 Lab Manual : Pages 29-42

Keeping track of your data…

Precision & Accuracy Precision –How close are the measurements to each other? –Reproducibility Accuracy – How close is a measurement to the true value? Could be affected by the following: Systematic errors – all higher or lower than actual value Random errors – some high and some low Shots by A.Yu 7/09

Significant Figures Presenting measurements and calculated results with the appropriate significant figures and units is an indication of the precision of values.

Rules for Sig Figs All nonzero digits are significant Trapped zeros are significant Trailing zeros are significant if there is a decimal point Leading zeroes are NOT significant # sig figs How would one write 300 with 2 sig figs?

Scientific Notation 3.0 x 10 2 has two sig figs Written as a number between 1-10 x a power of ten Unambiguously displays the precision of the value making it easier to make comparisons 3003 x x x x x x 10 -3

Making Measurements - Thermometer The number of significant figures in your measurement depends on the measuring device. The bottom of the meniscus is between 87 and 88 ° C. This can be read to 1 digit more precision than indicated by the calibration. The last estimated digit can vary from person to person, but each should record a value to the tenth’s place. There are 3 sig figs and the last digit is the uncertain digit. Generally, measurements are uncertain by ± 1 in that last digit unless otherwise indicated by your measuring device. Usually, 1/10 of an increment. 87.5±.1°C

Beaker vs. Graduated Cylinder Each contains the same amount of water.

Beaker 10. ± 1mL

Graduated Cylinder ±.05 mL

The Analytical Balance All digits should be recorded as given, precision is to the 0.1 mg, & the accuracy is determined by the calibration.

The Analytical Balance Make sure the bubble is centered before use. Never move the balance! Keep it clean.

Calculations & Sig Figs Multiplication & Division The total number of sig figs in the answer is equal to the same number of sig figs in the measurement used in the calculation with the smallest number of sig figs. Ex: 5.1 cm x 2.01 cm = cm 2 = 10. cm 2 Round the final answer using the number to the right of the last sig fig. Avoid round off errors by keeping extra digits beyond the last sig fig when calculating intermediate values.

Calculations & Sig Figs Addition & Subtraction The final answer should be rounded to the right-most filled column (according to the value with the biggest uncertain digit – the weakest link). Ex: 6.5 cm cm cm cm = cm

“Scientific notation” can make it easier….. What is the sum of 4.5 x 10 -6, 3.2 x10 -5, and 15.2 x ?.45 x x x x = 3.8 x 10 -5

SI Prefixes Prefix Symbol Meaning Power of 10 MegaM 1,000, Kilok 1, Decid Centi c Milli m Microμ Nanon Femtof Attoa

Fundamental SI Units Physical Quantity UnitAbbreviation Masskilogramkg Lengthmeterm Timeseconds Temperature kelvinK

Dimensional Analysis Use conversion factors (definitions, ratios) to convert from one unit to another. Conversion factors are exact numbers that have no uncertainty. Ex. Convert 6.4 weeks to hours. 6.4 weeks x 7 days x 24 hours = 1100 hrs 1 week 1 day

Group Problems Convert 47 hours to weeks. 47 hours x 1 day x 1 week = 0.28 weeks 24 hours 7 days The same conversions were used as in the previous example. The top equals the bottom. Round off answers at the end. Keep additional sig figs for intermediate answers. Calculate the sum of The tread on a certain automobile tire wears inches per 2,600 miles driven. If the car is driven 45 miles a day, how many months ( 1mo = 30 days) can a tire w/ in of tread be used before it wears down and needs to be replaced?.010in x 2,600 mi x 1 day x 1 month = = 19 months in 45 mi 30 days In a displacement of water by gas experiment the initial volume of water in a burette is mL and the final volume is mL. What is the total volume of water displaced? In mL? in L? (4sf) mL (4sf) 8.00 mL (3sf) = L (still 3sf)

Statistical Analysis and Expression of Data Reading: Lab Manual Today: Some basics that will help you the entire year The mean or average =  true value,  measurements ≈  true value, finite # of measurements Uncertainty given by standard deviation

Usually interested in mean (average) and its uncertainty Standard Deviation of the mean Expression of experimental results: 1. Statistical Uncertainties (S, Sm) always expressed to 2 significant figures 2. Mean (Average) expressed to most significant digit in S m (the std. dev. of the mean) For finite # of measurements, standard deviation: S σ ≈ S = [  (x i -  ) 2 /(n-1)] 1/2 (Calculators can calculate average & σ quite easily!!! Learn how to do this on your calculator.)

Example Measure 3 masses: , , grams Average = grams Std. Dev. S = =.13 grams Then average = ?= grams S m = /  3 = =.072 grams Now work problems. What if measure , , grams? Ave. = ; S m = Ave. = ?Ave. = , not because limited by measurement to.0001 grams place

This worksheet appears on page 5 of the NEXT lab experiment. We can now do questions a & b and will cover next week the rest of the material (use of Student t-values for limited set of measurements, 95% confidence limits) Sally 5 times, average value of % ; standard deviation of %. Janet 7 times, average value of % ; standard deviation of %. (different technique) Express the averages and standard deviations to the correct number of significant figures. Must use S m. Sally: S m = /  5 = x = 1.2 x % Janet: S m = /  7 = x = 1.1 x % Sally: 15.72%; S = 0.026% Janet: 15.68%; S = 0.030% Using the proper statistical parameter, whose average value is more precise? Must use S m. S m (Janet) < S m (Sally) so Janet’s average value is more precise. The rest of the worksheet will be covered during the next lab period.

First Day in the Laboratory (p.1-3) Let’s move to Room 122 for the balance exercise. On the first page of your lab notebook, draw a map of the room w/ exits, closet eye wash, shower, and fire extingusher. Complete p. 3 of the manual and turn in to your lab assistant before you leave.