Accuracy = how close to the accepted value your measurement is Precision = Reproducibility, your measurement closely matches your other measurements.

Slides:

Advertisements

Similar presentations

Reliability in Measurements

Advertisements

Errors and Uncertainties in Biology Accuracy Accuracy indicates how close a measurement is to the accepted value. For example, we'd expect a balance.

UNIT: Chemistry and Measurement

SIGNIFICANT FIGURES.

1.07 Accuracy and Precision

Accuracy vs. Precision Some people would say that Trial 2 would be more accurate than Trial 1 But Accuracy is how close our measurement is to the actual.

Chapter 2 Notes Qualitative/Quantitative Precision/Accuracy Sig Figs Error/Percent Error.

The color was brownish The volume was 6 mL The weight was 11.5 g What’s the difference between these three pieces of data?

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

WARMUP (10 minutes) 5.00/ (19.5)(2) 34.9/0.39

MEASUREMENTS. What is the difference between these two measurement rulers? Should we record the same number for each scale reading?

SIGNIFICANT FIGURES. ACCURACY VS. PRECISION  In labs, we are concerned by how “correct” our measurements are  They can be accurate and precise  Accurate:

Find the length of a paperclip with each of the three “rulers”

Accuracy and Precision

Flashback Convert 2.58 m to kilometers. Accuracy and Precision Accuracy- the closeness of measurements to the correct value of the quantity measured.

1 Accuracy and Precision At the conclusion of our time together, you should be able to: 1. Explain the difference between the accuracy and precision 2.

Error Analysis Monday, August 17 th. Do Now  Complete the following calculation. Make sure you use the correct amount of sig figs:  x174.5  Once.

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.

1.07 Accuracy and Precision

Measuring Mass. What is mass? mass – the amount of matter in an object – when you measure your weight, you are actually measuring your mass in kilograms.

SIGNIFICANT FIGURES AN EASY METHOD TO AVOID PRODUCING MISLEADING RESULTS.

SI Measurement System US Customary Measurement System &

1 Accuracy and Precision Notes Chemistry 1. 2 Uncertainty in Measurements There is no such thing as a perfect measurement! All measurements have a degree.

IB Mark Schemes Data Collection and Processing Honors Physical Science 2012.

Aim: How do we record measurements? Do Now: Record the measurements of A, B, and C 0 A 1 2 B C 3.

 Scientist use significant figures to determine how precise a measurement is  Significant digits in a measurement include all of the known digits.

Bellringer 9 / 9 / 2009 Rephrase the following quotation in your own words “There is nothing so far removed from us to be beyond our reach, or so far hidden.

LABORATORY EQUIPMENT METRIC RULER

1 UNIT ONE Topic: Accuracy and Precision. 2 Accuracy How close a measurement is to the actual or true value good accuracy true value poor accuracy true.

Errors and Uncertainties In Measurements and in Calculations.

Quick Review of the 10’s places 123,456 1’s place 10’s place 100’s place 1,000’s place 10,000’s place 100,000’s place.

US Customary Measurement System

I have a splitting headache… Completely missed the dartboard!!!

Measuring September Accuracy and Precision Accuracy indicates how close a measurement is to the accepted value. For example, we'd expect a balance.

Significant Figures & Scientific Notation. Significant Figures Scientist use significant figures to determine how precise a measurement is Significant.

© SSER Ltd. How Science Works Selecting & Using Apparatus.

Chemistry. Accuracy  how closely a measurement matches the true or actual values  only requires the true value (bulls eye) & one measurement (for the.

Objectives: * 1. Define significant digits. * 2. Explain how to determine which digits in measurement are significant. * 3. Convert measurements in to.

Accuracy vs. Precision. Calculations Involving Measured Quantities The accuracy of a measured quantity is based on the measurement tool. The last digit.

Uncertainties of Measurements Precision Accuracy Parallax Error.

What do you know about these words listed above?.

READING BETWEEN THE LINES Estimate one place on non digital equipment. (rulers, graduated cylinders) 6 7 cm 6.42 cm If it is exactly on the line 6.60 cm.

Significant Figures.

Unit 0: Working as a Scientist – Significant Figures AGENDA: DO NOW NOTES WHITE BOARDING LAB GOAL: I can properly record and calculate data with proper.

Science, Measurement, Uncertainty and Error1 Science, Measurements, Uncertainty and Error.

US Customary Measurement System © 2012 Project Lead The Way, Inc.Introduction to Engineering Design.

Percent Error. A measure of how accurate or inaccurate a measurement is.

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

Unit 1 Chapter 2 Pages

Ruler a Ruler b Ruler c Were all of your measurements identical

Accuracy, Precision, & Significant Digits

IB Mark Schemes Analysis (formerly Data Collection and Processing)

How to Read and Record Measurements

Accuracy Precision Sig Figs Graphing

Making Precise Measurements

Collecting & Graphing Data

Errors and Uncertainties

Accuracy vs. Reproducibility

Lab Equipment: Collecting Data

Accuracy, precision, and you

Measurement In Science:

Accuracy, Precision, & Significant Digits

LABORATORY EQUIPMENT METRIC RULER

The Scientific Method Imagine a police investigation of a car accident. You are the detective. How would you figure out what happened?

Significant Figures.

Title: Measurement Lab

How to Measure Properly

Precision & Uncertainties

Measurement Readings on Lab Instruments

Reliability in Measurements

Presentation transcript:

Accuracy = how close to the accepted value your measurement is Precision = Reproducibility, your measurement closely matches your other measurements

The actual amount is 2.58 mL. Sally, Billy, Stanley, and Petunia each tried to measure the amount and came up with the following results… StudentTrial 1Trial 2Trial 3 Sally Billy Stanley Petunia The most accurate was: Stanley! The most precise was: Sally!

You can only measure as precise as the instrument For example; many home scales only measure to the nearest pound or half pounds but your weight can be measured in grams or milligrams. The more precise the instrument is the more precisely you can measure something. So where do we stop? What's the last number to be recorded?

What’s the last number we can record First we decide we know and what we are estimating If measurement falls between two lines than were estimating the last number AccuracyPrecision The Rules: What : Use measuring tools correctly and carefully. Estimate one digit beyond what you can read. Why: So that what you say, as a scientist, is trustworthy. As a fair standard for reporting how sure you are about something you have measured

If you can measure something to the 10th place you will record the measurement to 100th place 2.5 cm = 2.50 or 2.51 or 2.53 Discuss and write how these three measurements are both precise and accurate

Let’s measure  We will be measuring three things  We will work in teams and each member will record their data from each instrument  Let’s review how to properly handle, calibrate and use the instruments. Discuss and write down in full sentences if your data was precise and/or accurate