US Customary Measurement System The U S Customary

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US Customary Measurement System

US Customary Measurement System

The U S Customary Measurement System • System of measurement used in the United

The U S Customary Measurement System • System of measurement used in the United States • Similar to the British Imperial System of Measurement, but not identical Common U S Customary Units Measurement Symbol Unit in. inch ft foot mi mile mass slug force lb pound time s second thermodynamic temperature F Fahrenheit degree length

Common Items: Size Comparison

Common Items: Size Comparison

Recording Measurements • A measurement always includes units • A measurement always includes error

Recording Measurements • A measurement always includes units • A measurement always includes error – A measurement is the best estimate of a quantity – Scientists and engineers often use significant digits to indicate the uncertainty of a measurement • Indicate the accuracy and precision of your measurement

Precision and Accuracy • Precision (repeatability) = The degree to which repeated measurements show

Precision and Accuracy • Precision (repeatability) = The degree to which repeated measurements show the same result • Accuracy = The degree of closeness of measurements of a quantity to the actual (or accepted) value High Accuracy Low Precision Low Accuracy High Precision High Accuracy High Precision

Recording Measurements • Ideally, a measurement device is both accurate and precise • Accuracy

Recording Measurements • Ideally, a measurement device is both accurate and precise • Accuracy is dependent on calibration to a standard • Precision is dependent on the characteristics and/or capabilities of the measuring device and its use – Record only to the precision to which you and your measuring device can measure

Significant Digits • Accepted practice in science is to indicate uncertainty of measurement •

Significant Digits • Accepted practice in science is to indicate uncertainty of measurement • Significant digits are digits in a decimal number that carry meaning contributing to the uncertainty of the quantity • The digits you record for a measurement are considered significant • Include all certain digits in a measurement and one uncertain digit • Note: Fractions are “fuzzy” numbers in which significant digits are not directly indicated

Recording Measurements • General Rules – Digital Instruments: Read and record all the numbers,

Recording Measurements • General Rules – Digital Instruments: Read and record all the numbers, including zeros after the decimal point, exactly as displayed – Decimal Scaled Instruments: Record all digits that you can certainly determine from the scale markings and estimate one more digit • Preferred over fractional scaled instruments – Fractional Scaled Instruments: Need special consideration

Fractional Length Measurement • A typical ruler provides – A 12 inch graduated scale

Fractional Length Measurement • A typical ruler provides – A 12 inch graduated scale in US Customary units – Each inch is graduated into smaller divisions, typically 1/16” increments

The Inch • The divisions on the U S Customary units scale are easily

The Inch • The divisions on the U S Customary units scale are easily identified by different sized markings. The largest markings on the scale identify the inch.

The Inch • Each subsequently shorter tick mark indicates half of the distance between

The Inch • Each subsequently shorter tick mark indicates half of the distance between next longer tick marks. • For example the next smaller tick mark indicates half of an inch = ½ inch 1/2

The Inch • Half of a half = ¼ inch. An English scale shows

The Inch • Half of a half = ¼ inch. An English scale shows ¼ inch and ¾ inch marks. • All fractions must be reduced to lowest terms. 1/4 3/4

The Inch • Half of a quarter = 1/8 inch 1/8 3/8 5/8 7/8

The Inch • Half of a quarter = 1/8 inch 1/8 3/8 5/8 7/8

The Inch • Half of an eighth = 1/16 inch 1/16 5/16 9/16 13/16

The Inch • Half of an eighth = 1/16 inch 1/16 5/16 9/16 13/16 7/16 11/16 15/16

Measurement: Using a Fractional Scale • How long is the rectangle? • Let’s look

Measurement: Using a Fractional Scale • How long is the rectangle? • Let’s look a little closer

Measurement: Using a Fractional Scale • How long is the rectangle? • What fraction

Measurement: Using a Fractional Scale • How long is the rectangle? • What fraction of an inch does this mark represent? 3/16 1/4 1/2 1/8

Measurement: Using a Fractional Scale • How long is the rectangle? What is the

Measurement: Using a Fractional Scale • How long is the rectangle? What is the midpoint of 2 1/8 and 2 3/16? 5/32 1/8 3/16

Measurement: Using a Fractional Scale • How do we determine that 5/32 is midway

Measurement: Using a Fractional Scale • How do we determine that 5/32 is midway between 1/8 and 3/16? • Convert each fraction to a common denominator: 32 Find the average of the two measurements 5

Recording a Measurement: Using a Fractional Scale • How long is the rectangle? •

Recording a Measurement: Using a Fractional Scale • How long is the rectangle? • Remember the General Rule – Fractional Scaled Instruments require special consideration Are 6 significant digits appropriate? ? ? • 1/16 in. =. 0625 in.

Recording a Measurement: Using a Fractional Scale • For the standard ruler marked in

Recording a Measurement: Using a Fractional Scale • For the standard ruler marked in 1/16 inch increments (least count = 1/16 in. ) • Record fraction measurements to the nearest 1/32 inch 2 5 in. 32 • Record decimal equivalent to the nearest hundredths of an inch 2. 16 in. • Record with your data – The least count of the scale (1/16 in. ) – The increment to which measurements are estimated (nearest 1/32 in. )

Your Turn Record each measurement in fractional and decimal inches.

Your Turn Record each measurement in fractional and decimal inches.