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A.P. Ch. 1 Review Work Chemical Foundations.

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Presentation on theme: "A.P. Ch. 1 Review Work Chemical Foundations."— Presentation transcript:

1 A.P. Ch. 1 Review Work Chemical Foundations

2 Lab Equipment Graduated Cylinder: used for accurately measuring liquid volumes Beaker: used for stirring, mixing, and heating liquids with a spout to aid in pouring Burette: used in titrations to dispense specific volumes of titrating solution Volumetric Flask: used for making dilutions at a specific volume

3 Lab Equipment Continued…
Erlenmeyer Flask: used for swirling solutions and for storage Bunsen Burner: used for heating substances Crucible: ceramic bowl used to heat substances to high temperatures Pipette: used for dispensing precise amounts of liquid

4 SI Units Internationally recognized units of measure to standardize scientific community Mass – Kilogram (kg) Length – Meter (m) Time – Seconds (s) Temperature – Kelvin (K) or Celsius (ºC) Prefixes: Giga (billion), Mega (million), Kilo (thousand), Hecto (100), Deka (10), Deci (1/10), Centi (1/100) Milli (1/1000), Micro (1/million), Nano (1/billion), Pico (1/trillion)

5 Uncertainty in Measurements
A. Measurements always have some amount of uncertainty based on the measuring device 4.35 cm B. Correct measurements always have one “uncertain number”

6 Significant Figures Rules for Identifying:
All non-zero #’s are significant Zeros only significant if between numbers or behind numbers with decimal visible anywhere (202), (0.020), (200.), (200) 3. Exact numbers (obtained from counting or from definitions) (12 in a dozen, 60 min. = 1 hour) have infinite sig. figs.

7 Underline the Significant Figures
2,000 m 202,000 mm kg atm 400.C 8.90x102 mL 0.5 mol M

8 Sig. Fig. Calculations Multiplication/Division
Depends on smallest # of sig. figs Ex x 0.5 = 5.25 which we round to 5 (1 s.f.) Addition/Subtraction Depends on smallest # of decimal spaces Ex = 11 but we make it 11.0 to have 1 decimal point

9 Calculate These Using Significant Figure Rules
= 10.6 x 2 = 100 – 9.5 = 1500  3.54 =

10 Conversions Use equivalence to compare two units
Ex Centimeters  kilometers If the units match, then you are done, perform the math 2000 cm 1 meter 1 kilometer = kilometers 0.02 1000 meter 100 cm

11 Temperature Fahrenheit scale based on human body temp. (ºF-32) x (5/9) = ºC Celsius scale based on boiling/freezing water ºC x (9/5) + 32 = ºF Kelvin scale based on absolute zero (theoretical temp. when motion stops) ºC = K

12 Density Density = mass/volume Usually in grams/cm3 or g/mL
Depends on compactness of an object

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