Measuring, Precision vs. Accuracy, and Intro to Significant Figures

Slides:



Advertisements
Similar presentations
Proper Lab Technique.
Advertisements

Physics Tool Kit Units (S.I. System - Meters, Kg, S) Unit Conversion Scientific Notation Accuracy and Precision Significant Figures Dimensional Analysis.
Measurements Length Volume Temperature Mass 1.Will learn to use different measuring instrument 2.Will learn that the smaller the unit increment, the more.
Measuring Devices:. MEASURING MASS There are various types of laboratory balances. The triple beam beam balance you use may look somewhat different from.
The volume we read from the beaker has a reading error of +/- 1 mL.
Significant Figures Every measurement has a limit on its accuracy based on the properties of the instrument used. we must indicate the precision of the.
Physical quantities and their measurements
The metric system was created to develop a unified, natural, universal system of measurement. In 1790 King Louis XVI of France assigned a group to begin.
Forensic Science.   Part 1 - number  Part 2 - scale (unit)  Examples:  20 grams  6.63 x Joule seconds Measurement - quantitative observation.
History of Measurement
The Metric System.
Measurement.
SIGNIFICANT FIGURES.
The Rules of the Game. Over hundreds of years ago, physicists and other scientists developed a traditional way of expressing their observations.  International.
Using the Metric Ruler Recognizing the Difference Between Centimeters (cm) and Millimeters (mm) on the Metric Ruler.
Measuring How to be PRECISE and ACCURATE. How to Measure MASS MASS – the amount of MATTER in an object; measured in grams (gm) Triple Beam Balance.
Scientific Measurement
Measurement Activity Work with the team at your row
Measurement and Calculation Unit 2. The Fundamental SI Units (la Système Internationale, SI) Physical QuantityNameAbbreviation Mass Length Time Temperature.
Making Measurements and Using Numbers The guide to lab calculations.
Chapter 2 The Metric System
Measurement Notes From pages in the text Honors Intro Physics Friday, Sept. 4 th.
Measurement Notes. Chemistry – Qualitative Measurement – Quantitative Measurement – the science that deals with the materials of the universe and the.
The Metric (SI) System Unit 1 SI = Systeme Internationale  Used in Science  Used throughout the world (except in U.S.A.) for all measurements  Based.
Significant Figures. Who cares? Sig Figs measure the degree of precision of a measurement.
Significant Figures in measurements and calculations
2.4 Significant Figures in Measurement
SIGNIFICANT FIGURES. ACCURACY VS. PRECISION  In labs, we are concerned by how “correct” our measurements are  They can be accurate and precise  Accurate:
Welcome to Chemistry 116! Lab Safety and Proper Procedures Labs 1.
Significant Figures Suppose we are measuring the length of an object with a meter stick. When using a measuring device, always estimate to the nearest.
1 Using Numbers in Science Metric System and Instruments Used for Measurement.
Measurements and Calculations 1. To show how very large or very small numbers can be expressed in scientific notation 2. To learn the English, metric,
1 Parts of a Measurement 1.The value (numerical portion) 2.The unit (describes what units) 3.The name of substance being measured EX: 1 teaspoon salt 2.
Do Now Take a copy of the worksheet Organizing Data from the front desk. Bring it back to your seat and work on it for the first 10 min. of class.
Measuring Review and Pictures Page Graduated Cylinder.
Calibration vs. Precision If a balance is accurate, it should read 0 when nothing is on it. The process for making sure a balance or any equipment is accurate.
Physics 11: Skills Review Significant Digits (and measuring, scientific notation, conversions……)
Left Image:
The Nature of Science and Technology
Measurement and Calculation Unit 2. The Fundamental SI Units (le Système International, SI) Physical QuantityNameAbbreviation Mass Length Time Temperature.
3.1 Measurement and Uncertainty How do you think scientists ensure measurements are accurate and precise?
Measuring and Significant Digits. Parallax Error Parallax is the apparent shift in position of an object caused by the observer’s movement relative to.
Instruments of Measurement. A balance is used to measure the amount of matter an object contains and is measured in grams.
Lab Techniques. Measuring Distance Length = the distance between two points Always use a metric ruler!
Using Laboratory Equipment Chapter 3. Laboratory Equipment  Containers and Holding Devices  Thermometers  Balances.
LABORATORY EQUIPMENT METRIC RULER
Metric Measurement. Measurement Metric System – A. Why we use the metric system: 1. Universal system of measurement having standard units. All scientists.
Measurements  Dimensions  Volume  Mass Miss Fogg Fall 2015.
The Science of Chemistry Measurement. Introduction When you hear the term chemistry, what comes to mind??? What do you think we are going to study?? Choose.
Matter And Measurement 1 Matter and Measurement. Matter And Measurement 2 Length The measure of how much space an object occupies; The basic unit of length,
Applying Mathematical Concepts to Chemistry DATA ANALYSIS.
All measurements are subject to uncertainties. All instruments used are influenced by external circumstances, and the accuracy of a measurement may be.
Accuracy & Precision & Significant Digits. Accuracy & Precision What’s difference? Accuracy – The closeness of the average of a set of measurements to.
The metric system was created to develop a unified, natural, universal system of measurement. In 1790 King Louis XVI of France assigned a group to begin.
1 CHEMISTRY IS THE STUDY OF MATTER AND ITS MAKEUP ARRANGEMENT OF ATOMS CHARACTERISTICS CHANGES AND REACTIONS.
Section 5.1 Scientific Notation and Units Steven S. Zumdahl Susan A. Zumdahl Donald J. DeCoste Gretchen M. Adams University of Illinois at Urbana-Champaign.
MEASURING IN SCIENCE Metric System, units, significant figures, rounding, and scientific notation.
Making Metric Measurements. Ruler Metric rulers are fairly easy to read. They deal with centimeters and millimeters only. You won’t have to worry about.
Obj. 1.4 to 1.6.  A.) Metric System 1.) All SI units (notes from Table 1.4)  B.) Selected Prefixes you should know 1.) Table 1.5  C.) Length and Mass.
General Laboratory Techniques Dry Lab Chemistry 1105.
Scientific Measurement Chapter 3. Not just numbers Scientists express values that are obtained in the lab. In the lab we use balances, thermometers, and.
Measurements. In the USA we are slow to convert to using the international units of measurements. In the USA we use miles, yards, inches, tons, pounds,
Metrics: Making Measurement Notes. Introduction When scientist make observation, its not enough to say something is “big” or ”heavy.” Instead, scientists.
HOW DO WE READ OUR MEASUREMENTS IN SCIENCE? Significant figures: all numbers in a measurement that are definitely correct plus one estimated one. SPECIAL.
MEASUREMENT TOOLS.
Measurement & Precision MacInnes Science
Press the space bar to begin
How to be PRECISE and ACCURATE
Which tool on the left could you be the most precise with?
LABORATORY EQUIPMENT METRIC RULER
Presentation transcript:

Measuring, Precision vs. Accuracy, and Intro to Significant Figures

What do we measure? Volume – the amount of space taken up by a substance Mass – the amount of matter in an object Temperature – measure of how much thermal energy a substance has compared to a reference point Length – straight line distance between 2 points

What do you measure with?

Units of Measurement You cannot just record a number for a measurement. A unit must also be indicated. For example, a measurement is taken for the length of the laboratory table and recorded as 183 is not correct. A correct recording would be 183 centimeters (cm). All measurements should be made in metric units, or converted to metric.

Measuring Liquids – Volume! When you measure the volume of a liquid it is important to make sure that you use the appropriate kind and size of instrument. When you put a sample of a liquid into one of these instruments you will notice a curve at the surface of the liquid. This curve, which is called a meniscus. Adjust your body and head so that you are eye level with the instrument and the meniscus. Read the volume of the liquid at the bottom of the meniscus.

The triple beam balance Measuring Mass The triple beam balance Carrying the Balance Be sure all movable masses are back to the zero point. Place one hand under the balance and the other hand on the support (arm) to carry the balance. Using the Balance Zero the balance before you determine the mass of any substance.         a) Slide all of the movable masses back to the zero point.         b) Check to see that the pointer swings freely along the scale.       

Mass cont. Never put a hot object directly on the balance pan. Any dry chemical that is to be massed should be placed on paper or in a container. Never pour chemicals directly on the balance pan. Remember to mass the paper or container before adding the substance. Once you have placed the object to be massed on the pan, move the riders along the beams beginning with the largest mass first. If the beams are notched, make sure all riders are in a notch before you take a reading.

What is the mass?

Answer!

Measuring Temperature We will use degrees Celsius in this class! Never stir with a thermometer. Never read a temperature with a thermometer leaning against a side of a beaker. NO WAY! ->

Measuring Length Meter sticks are carefully calibrated in centimeters with a millimeter least count. That is, the millimeter is the smallest subdivision on the meter stick. This means the millimeter is the unit of the smallest reading that can be made without estimating.

Figure 2. An example of a meter stick reading Figure 2. An example of a meter stick reading. The object's length is measured to be 41.64 cm. (See text for description.) Figure 1. This meter stick is calibrated in centimeters (shown as the numbered major divisions) with a least count of millimeters.

Reading instruments to significant figures The least count of this meter stick is one millimeter, so we know with absolute certainty that the object is between 41.6 cm and 41.7 cm. We then estimate the object's length to the fractional part (doubtful figure) of the least count subdivision… 41.64 cm.

Let’s do this again…What is the mass?

Answer = 216.49 cm

Sig Figs Significant digits or significant figures are digits read from the measuring instrument plus one doubtful digit estimated by the observer. Examples: 203.4 cm: least count of ruler was 1 cm, tenth of centimeter was estimated. 4.07 cm: least count was 0.1 cm. hundredth of centimeter was estimated.

Rules for Sig Figs Digits from 1-9 are always significant. Zeros between non-zeros are always significant Zeros at the beginning of a number are never significant, they merely indicate the position of the decimal point Zeros that fall both at the end of the number AND after the decimal point are always significant When a number ends in zeros but contains NO decimal point the zeros may or may not be significant….if this is the case, we use scientific notation!

Examples EXAMPLES # OF SIG. DIG. COMMENT 453 kg 3 All non-zero digits are always significant. 2004 L 4 Zeros between 2 sig. dig. are significant. 5.00 Additional zeros to the right of decimal and a sig. dig. are significant. 0.007 1 Placeholders are not

Practice problems What is the number of sig figs in each of the following: 1282 kg 0.00296 s 8.070 mm 0.0105 L 9.7750 x 10-4 m

Accuracy and Precision Accuracy-the closeness of a measurement is to the true value of what is measured Precision- a gauge of how exact a measurement is Which is more precise…a glug ruler or a 0.01 glug ruler? Why? With which ruler can you report more significant figures?

Accuracy vs. Precision

Clock Example Digital vs. analog