BELL RINGER #1 Convert 125,458,621,000,000 to Scientific Notation. #2 Convert 0.000000125400000 to Scientific Notation.

Slides:

Advertisements

Similar presentations

SCIENTIFIC NOTATION, SIGNIFICANT DIGITS, & METRIC CONVERSIONS

Advertisements

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

Measurement Scientific Notation Precision

1 1.8 Significant Figures Chapter 1 Matter, Measurements, & Calculations Copyright © 2005 by Pearson Education, Inc. Publishing as Benjamin Cummings.

Using Scientific Measurements.

Ch. 3.1 – Measurements and Their Uncertainty

Uncertainty in Measurements

Includes all the digits that are known, plus one that is estimated.

Measurements: Every measurement has UNITS.

BELL RINGER – Complete on a sheet of paper and TURN IN before working on notes! A student needed to calibrate a graduated cylinder [a device to measure.

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.

The Mathematics of Chemistry Significant Figures.

Significant Figures.  All measurements are inaccurate  Precision of measuring device  Human error  Faulty technique.

Ms. Pollock Significant Figures  Numbers in math class considered to be exact – produced by definition, not by measurement  Measurements.

Introduction to Significant Figures &

Uncertainty In Measurement

UNIT ONE TOPIC: Significant Figures and Calculations.

Calculating with Significant Figures

NOTES: 3.1, part 2 - 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.

Uncertainty in Measurements: Using Significant Figures & Scientific Notation Unit 1 Scientific Processes Steinbrink.

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

Significant Figures, Rounding and Truncating. Significant Figures The significant figures (digits) in a measurement include all the digits that can be.

Uncertainty in Measurements and Significant Figures Group 4 Period 1.

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

SIG FIGS Section 2-3 Significant Figures Often, precision is limited by the tools available. Significant figures include all known digits plus one estimated.

Super important tool to use with measurements!. Significant Figures (sig. figs.) All digits in a measurement that are known for certain, plus the first.

Measurement and Its Uncertainties.

Significant Digits p. 940 – 941 or significant figures or sigfigs or sf.

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.

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

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.

Title: Significant Figures and Rounding Objective: I will be able to determine the amount of significant figures when given a quantifiable number and round.

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

Scientific notation is a quick way of writing very large or very small numbers. Scientific Notation & Significant Digits Example #1 Write m/s.

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 Digits Unit 1 – pp 56 – 59 of your book Mrs. Callender.

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,

3.1 Using and Expressing Measurements > 1 Copyright © Pearson Education, Inc., or its affiliates. All Rights Reserved. Scientific Notation & Significant.

Introduction to Significant Figures & Scientific Notation.

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

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

The Science of Physics Chapter #1 Ms. Hanan Anabusi.

Using Scientific Measurements. Accuracy and Precision Accuracy –How close a measurement is to the true or accepted value Determined by calculating % Error.

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

SCIENTIFIC NOTATION 5.67 x 10 5 –Coefficient –Base –Exponent 1. The coefficient must be greater than or equal to 1 and less than The base must be.

Significant Figures. Rule 1: Nonzero numbers are always significant. Ex.) 72.3 has 3 sig figs.

Definition Measures the degree of confidence of a measurement.

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

Significant Figures. Who cares? Sig Figs measure the degree of precision of a measurement.

Lesson Objectives Know how perform mathematical operations using significant figures.

Aim: Why are Significant Figures Important?

Aim: How to write in Scientific Notation and Count Significant Figures

Significant Figures.

Significant Figures

Text Section 2.3 Pages

Significant Figures.

Section 3-2 Uncertainty in Measurements

Uncertainty in Measurement

Measurement book reference p

Accuracy vs. Precision & Significant Figures

Uncertainty in Measurement

Significant Figures.

Introduction to Significant Figures &

Aim: Why are Significant Figures Important?

Presentation transcript:

BELL RINGER #1 Convert 125,458,621,000,000 to Scientific Notation. #2 Convert to Scientific Notation.

#1 125,458,621,000,000 * x # x 10 -7

Significant Figures Dealing with uncertainty in measurements.

What values are shown below?

Why is it difficult to be certain about some of the measurements you make? –All measurements have SOME DEGREE OF UNCERTAINTY due to limits associated with the measuring device. –Generally, uncertainty begins with the LAST DIGIT of the measurement.

In a measurement, ALL THE DIGITS KNOWN FOR CERTAIN plus the first ESTIMATED DIGIT are known as the SIGNIFICANT FIGURES of the measurement. It is generally accepted that when a measurement is given, ALL NON-ZERO DIGITS are considered SIGNIFICANT. For example grams Digits known for certain. First estimated digit.

The Problem with Zero While all NON-ZERO DIGITS are considered significant, ZEROS present a particular problem. –Zeros can be measurements –Zeros can be place holders How do you decide whether or not a zero is significant?

Rules for Significant Figures 1. ALL NON-ZERO digits are considered significant. Examples Zeros BETWEEN NON-ZERO DIGITS are SIGNIFICANT parts of a measurement. Examples

3. Zeros BOTH TO THE RIGHT OF a non-zero digit AND a WRITTEN DECIMAL are significant. Examples Zeros that SERVE ONLY AS PLACEHOLDERS are NOT SIGNIFICANT. Examples

5. Zeros to THE RIGHT OF A NON-ZERO DIGIT BUT to the LEFT OF AN UNDERSTOOD DECIMAL are NOT SIGNIFICANT…..they can be the RESULT OF ROUNDING OFF! If a BAR is placed ABOVE A ZERO it makes ALL digits OVER TO AND INCLUDING THE ZERO WITH THE BAR SIGNIFICANT. _ Example NOTE – If the number is in SCIENTIFIC NOTATION only consider the COEFFICIENT when determining SFs.

Practice Problems Determine how many figures are significant in each of these measurements: x _

Mathematical Operations with Significant Figures

When completing math calculation, the final answer must be reported rounded to the appropriate number of significant figures. The answer is rounded according to the LAST mathematical operation completed.

Rules 1. Complete calculations following the order of operations. 2. If the FINAL step is MULTIPLICATION or DIVISION: –A. Look at each value given in the problem and find the one with the LEAST number of significant figures. –B. Round the FINAL ANSWER to the same number of significant figures. –DO NOT ROUND UNTIL THE FINAL STEP!

Mult/Div Examples 4.59 X 1.22 = = = sf 3sf 3sf 3sf 3 sf 45.6 = sf = sf = sf

ADD/SUBTRACT Complete calculations following order of operations. If the FINAL step is addition or subtraction: –A. Only consider digits to the RIGHT of the decimal. –B. Determine the fewest SF to the right of the decimal. –C. Round final answer to this number of SF.

ADD/SUBTRACT EXAMPLES 25.4 (1 sf) – = (2 sf) (3 sf) (4 sf) = (2 sf) = 191.5