Significant Figures Calculate: 12.76 x 1.76 = How do we round our answers? –Answer: Significant Figures (Sig Figs) When calculating using measurements,

Slides:

Advertisements

Similar presentations

Ch. 3.1 – Measurements and Their Uncertainty

Advertisements

Uncertainty in Measurements

Measurements: Every measurement has UNITS.

Precision and Accuracy Uncertainty in Measurements.

IB Chem I Uncertainty in Measurement Significant Figures.

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.

IN THE CHEMISTRY SECTION OF YOUR NOTEBOOK, TAKE CORNELL STYLE NOTES OVER THE INFORMATION PRESENTED IN THE FOLLOWING SLIDES. Measurements in Chemistry Aug.

Measurements: Every measurement has UNITS.

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.

How many significant figures?

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,

Significant Figure Notes With scientific notation too.

Chemistry 3.1 Uncertainty in Measurements. I. Accuracy, Precision, & Error A. Accuracy – how close a measurement comes to the “true value”. 1. Ex: Throwing.

The Importance of measurement Scientific Notation.

Scientific Measurement. Measurements are fundamental to the experimental sciences.  Measurement: A quantity that has both a number and a unit.  Scientific.

Honors Chemistry I. Uncertainty in Measurement A digit that must be estimated is called uncertain. A measurement always has some degree of uncertainty.

Significant Figures What do you write?

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

Significant Figures How to count the number of significant figures in a decimal number. How to count the number of significant figures in a decimal number.

Accuracy, Precision, and Significant Figures in Measurement

Significant Figures and Scientific Notation The measuring device determines the number of significant figures a measurement has. Significant figures reflect.

Chemistry 100 Significant Figures. Rules for Significant Figures  Zeros used to locate decimal points are NOT significant. e.g., 0.5 kg = 5. X 10 2 g.

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

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

Measurements in Chemistry Aug 6, 2014 In the chemistry section of your notebook, Take Cornell style notes over the information presented in the following.

Significant Figures SPH3U. Precision: How well a group of measurements made of the same object, under the same conditions, actually agree with one another.

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.

Significant Figures. Rule 1: Digits other than zero are significant 96 g = 2 Sig Figs 152 g = __________ Sig Figs 61.4 g = 3 Sig Figs g = __________.

Significant Figures and Scientific Notation. What is a Significant Figure? There are 2 kinds of numbers:  Exact: the amount of money in your account.

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)

Measurements and their Uncertainty

Significant Figures.

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.

1-2 Significant Figures: Rules and Calculations (Section 2.5, p )

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

Unit: Introduction to Chemistry

Unit 1 Chapter 2 Pages

Uncertainty and Significant Figures

Significant Figures.

Do Now!!!! Write the following numbers in scientific notation Form

Scientific Notation & Significant Figures

Significant Figures.

Significant Figures.

Active Chemistry Chapter 1 Activity 3

Significant Figures L. Bernard, 2015.

(sig figs if you’re cool)

Uncertainty and Significant Figures

Significant Figures

Measurements and Sig Figs

Lesson 2 – Sci. Notation, Accuracy, and Significant Figures

Section 3-2 Uncertainty in Measurements

Measurement book reference p

Scientific Measurement

Scientific Measurement

Measurement Unit Unit Description:

Scientific Measurement

Significant Digits and Scientific Notation

Accuracy vs. Precision & Significant Figures

Accuracy and Precision

Lesson 2 – Sci. Notation, Accuracy, and Significant Figures

Scientific Measurement

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)

Aim: Why are Significant Figures Important?

Presentation transcript:

Significant Figures Calculate: x 1.76 = How do we round our answers? –Answer: Significant Figures (Sig Figs) When calculating using measurements, the uncertainty must be reflected in the final answer.

Sig Fig Rules Any non-zero digit is significant Zero’s are only significant when: –Between two significant digits

–The last zero after the decimal and after a significant digit –Zero has a line over the top or a decimal after it

Examples:

Mass of a Hydrogen atom: g 2.0g of H 2 is composed of: molecules Are you sick of writing zeroes yet? There must be a better way... Scientific Notation Review

Scientific Notation!! The solution is Exponential or Scientific notation Numbers are written as a product of 2 numbers –a coefficient –a power of 10 The coefficient is a number >1 and <10 Ex. 2.3 x 10 3 = 2.3 x 10 x 10 x 10 = 2300 The exponent represents the number of places the decimal point has been moved from its standard notation point

Negative Exponents For numbers that are less than 1, the exponent is NEGATIVE Ex.7.2 x =

Sample Problems 1) ) ) ) ) ).099 7) ) )2456

Accuracy vs. Precision Scientific measurements must be both accurate and precise. Accuracy: How close a measurement comes to the actual dimension or true value of whatever is measured Precision: A instrument is considered precise when it gives the same answer over and over. The measurement is reproducible. Dartboard Analogy:

Sig Fig’s in Calculations Multiplication and Division rules: –The measurement with the smallest number of sig figs determines how many are allowed in the final answer 2.3 x 3.76 x = ? / 2.11 = ? Why? An answer cannot be more precise than the least precise measurement used

Significant Figures are only counted in measured numbers. Exact numbers have unlimited sig figs. Example:KE = 1/2mv 2 1 mole = exact number

Addition and Subtraction rules: –the number of significant digits allowed depends on the precision of the instruments used Jimmy throws a 2.54 kg rock into a kg dump truck. What is the mass of the truck? Is is true to say the mass is kg? NO! The mass of the truck is still approximately kg –Examples: =