Scientific Notation and Significant Figures Chemistry and Society Fall 2006 Giddy-up!

Slides:

Advertisements

Similar presentations

Measurement & Significant Figures

Advertisements

Physics Rules for using Significant Figures. Rules for Averaging Trials Determine the average of the trials using a calculator Determine the uncertainty.

Significant Figures. 1.All nonzero digits are significant. Example: 145 (3 sig figs) 2.Zeroes between two significant figures are themselves significant.

In order to convey the appropriate uncertainty in a reported number, we must report it to the correct number of significant figures. 1-8 Significant Figures.

Using Scientific Measurements.

Measurements: Every measurement has UNITS.

1 Significant Digits Reflect the accuracy of the measurement and the precision of the measuring device. All the figures known with certainty plus one extra.

Uncertainty in Measurement

Uncertainty In Measurement

Rules for Determining Significant Figures AP Chemistry U01L05.

IB Chem I Uncertainty in Measurement Significant Figures.

Using and Expressing Measurements

Aim: How can we perform mathematical calculations with significant digits? Do Now: State how many sig. figs. are in each of the following: x 10.

Chapter 1.5 Uncertainty in Measurement. Exact Numbers Values that are known exactly Numbers obtained from counting The number 1 in conversions Exactly.

Section 2.3 Measurement Reliability. Accuracy Term used with uncertainties Measure of how closely individual measurements agree with the correct or true.

Introduction to Chemistry.  Matter  Mass  Weight.

The Scientific Method 1. Using and Expressing Measurements Scientific notation is written as a number between 1 and 10 multiplied by 10 raised to a power.

Chem 160- Ch # 2l. Numbers from measurements.. Measurements Experiments are performed. Numerical values or data are obtained from these measurements.

Measurement book reference p Accuracy  The accuracy of the measurement refers to how close the measured value is to the true or accepted value.

Measurement book reference p Accuracy  The accuracy of the measurement refers to how close the measured value is to the true value.  For example,

Use of appropriate significant figures General Chemistry.

Significant Figures and Scientific Notation Significant Figures:Digits that are the result of careful measurement. 1.All non-zero digits are considered.

Objectives Distinguish between accuracy and precision. Determine the number of significant figures in measurements. Perform mathematical operations involving.

3.1 Measurement and Uncertainty How do you think scientists ensure measurements are accurate and precise?

Significant Figures Wednesday, August 12 th. Do Now 1. Place the following numbers in scientific notation or standard Notation x

Uncertainty in Measurement Accuracy, Precision, Error and Significant Figures.

Significant Figures Chemistry 10 Chemistry 10 Significant figures: the number of digits in an experimentally derived number that give useful information.

Significant Digits. l Significant figures are extremely important when reporting a numerical value. l The number of significant figures used indicates.

Scientific Measurement Measurements and their Uncertainty Dr. Yager Chapter 3.1.

Aim: How to write in Scientific Notation and Count Significant Figures DO NOW: 1. WHAT DOES 10 5 MEAN? 2. WHAT IS THE VALUE OF USING YOUR CALCULATOR,

Mastery of Significant Figures, Scientific Notation and Calculations Goal: Students will demonstrate success in identifying the number of significant figures.

Rounding  We need to round numbers because a calculator often gives an answer with more digits than are justified by the precision of the measurements.

“Scientific Measurement”. Measurements and Their Uncertainty OBJECTIVES: Convert measurements to scientific notation.

Measurement Unit Unit Description: In this unit we will focus on the mathematical tools we use in science, especially chemistry – the metric system and.

Measurement & Calculations Overview of the Scientific Method OBSERVE FORMULATE HYPOTHESIS TEST THEORIZE PUBLISH RESULTS.

Accuracy & Precision & Significant Digits. Accuracy & Precision What’s difference? Accuracy – The closeness of the average of a set of measurements to.

Chemistry Chapter 2D Uncertainty in Measurement. Uncertainty  Represents how well a measurement was made  Science is ‘peer reviewed’  We don’t just.

Significant Figures. Significant Figure Rules 1) ALL non-zero numbers (1,2,3,4,5,6,7,8,9) are ALWAYS significant. 1) ALL non-zero numbers (1,2,3,4,5,6,7,8,9)

Mastery of Significant Figures, Scientific Notation and Calculations Goal: Students will demonstrate success in identifying the number of significant figures.

Scientific Measurement. Using and Expressing Measurements Measurement- a quantity that has both number and unit Scientific notation- using exponents to.

SIGNIFICANT FIGURES Fun With Numbers!!. SIGNIFICANT FIGURES Significant figures are all numbers in a measurement that show the level of accuracy to which.

1.7 International System of Units (SI) Measurement and the metric system.

Chemistry I. Precision and Accuracy Accuracy refers to the agreement of a particular value with the true value. Precision refers to the degree of agreement.

Significant Digits Uncertainty of Measurement. Three Rules Non-zero digits are significant Zeros between two significant digits are significant Zeros.

UNIT 2: Scientific Measurement Honors Chemistry GHS.

Measurement and Uncertainty

Unit 3 lec 2: Significant Figures

Scientific Conventions and Mathematical Procedures

Using Scientific Measurements.

Measurements and Significant Figures

Active Chemistry Chapter 1 Activity 3

Uncertainty in Measurement

Scientific Notation Scientific notation takes the form: M x 10n

Text Section 2.3 Pages

Using Scientific Measurements.

Significant Figures.

Section 3-2 Uncertainty in Measurements

Measurement book reference p

Measurement Unit Unit Description:

Measurement Accuracy & Precision.

Accuracy vs. Precision & Significant Figures

Scientific Measurements

Using Scientific Measurements

Chemistry Measurement Notes

Objectives C-1.1 Apply established rules for significant digits, both in reading a scientific instrument and in calculating a derived quantity from measurement.

Uncertainty in Measurement

Significant Figures (Sig figs)

Calculation with Significant Figures

Aim: Why are Significant Figures Important?

Presentation transcript:

Scientific Notation and Significant Figures Chemistry and Society Fall 2006 Giddy-up!

Scientific Notation A system of shorthand –Helps make big number smaller –6.023 x –or 602,300,000,000,000,000,000,000 /scienceopticsu/powersof10/

Practice Convert the following to expanded forms: 1) ) ) ) )2.3 x )0.41 x 10 -6

Convert the following to scientific notation: 1) ) ) ) )4.5 x ) x ) 7.0 x ) 1.23 x 10 -2

V. USING A SCIENTIFIC CALCULATOR “E” does NOT mean error – it means exponential

Significant Digits Significant Digits- are important because you can not imply more accuracy than you measured –Lehner’s rules of Significant digits: All digits are significant EXCEPT –Zeros holding places to the left of non-zero number » = 3 significant digits

Zeros to the right of non-zero numbers that were NOT measured 300 meters = 1 significant digit 300. Meters = 3 significant digits Significant Digits

g g g round off to two decimal places g Significant Figures in the result of Addition or Subtraction  The result must be expressed with the same absolute uncertainty found in the least precisely determined quantity used to obtain the result.  Uses the Decimal places

 The result of these operations will contain the same number of significant figures as the quantity in the calculation containing the fewest number of significant figures. Significant Figures in the result of Multiplication and Division Density = 39.27g 20. mL 4 significant figures 1 significant figure = g/mL = 2 g/mL