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Units and Measurement

Units and Measurement. Chemistry Science 3 rd ESO. A) SI Units, Scientific Notation, Measurement, Accuracy, Precision, Error. Math and Units. Math- the language of Science SI Units – International System MKS Meter m Mass kg Time s National Bureau of Standards Prefixes.

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Units and Measurement

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  1. Units and Measurement Chemistry Science 3rdESO

  2. A) SI Units, Scientific Notation, Measurement, Accuracy, Precision, Error

  3. Math and Units • Math- the language of Science • SI Units – International System • MKS • Meter m • Mass kg • Time s • National Bureau of Standards • Prefixes

  4. SI Unit Prefixes

  5. Length

  6. A. 1 meter or 105 centimeters B. 4 kilometers or 4400 meters C. 12 centimeters or 102 millimeters D. 1200 millimeters or 1 meter km m cm mm Metric Units The basic unit of length in the metric system in the meter and is represented by a lowercase m. Standard: The distance traveled by light in absolute vacuum in 1⁄299.792.458 of a second. Metric Units 1 Kilometer (km) = 1000 meters 1 Meter = 100 Centimeters (cm) 1 Meter = 1000 Millimeters (mm) Click the image to watch a short video about the meter. Which is larger?

  7. 1 centimeter = 10 millimeters What is the length of the line in centimeters? _______cm What is the length of the line in millimeters? _______mm What is the length of the line to the nearest centimeter? ________cm HINT: Round to the nearest centimeter – no decimals. Measuring Length How many millimeters are in 1 centimeter? Ruler: http://www.k12math.com/math-concepts/measurement/ruler-cm.jpg

  8. Measuring Instruments Measuring Tapes: Long distance (up to 1metre) are available in closed and open reel configurations.  The open reel is good for outside or dirty environments. Calibrations are in centimetres or in millimetres. Straight Rules: Straight rules available in a large variety of materials, scales and graduations.  Lengths typically don't exceed 1m. It is used to measure in centimetres of length. Calliper rule A variation to the more traditional caliper is the inclusion of a vernier scale; this makes it possible to directly obtain a more precise measurement. Vernier calipers can measure internal dimensions (using the uppermost jaws in the picture at right), external dimensions using the pictured lower jaws, and depending on the manufacturer, depth measurements by the use of a probe that is attached to the movable head and slides along the centre of the body. The vernier scales may include both metric and inch measurements on the upper and lower part of the scale. Vernier calipers commonly used in industry provide a precision to a hundredth of a millimetre (10 micrometres), or one thousandth of an inch.

  9. Mass

  10. Kilogram Prototype A. 1 kilogram or 1500 grams B. 1200 milligrams or 1 gram C. 12 milligrams or 12 kilograms D. 4 kilograms or 4500 grams kg cg mg g Metric Units Mass refers to the amount of matter in an object. The base unit of mass in the metric system in the kilogram and is represented by kg. Standard: 1 kilogram is equal to the mass of the International Prototype Kilogram (IPK), a platinum-iridium cylinder kept by the BIPM at Sèvres, France. Metric Units 1 Kilogram (kg) = 1000 Grams (g) 1 Gram (g) = 1000 Milligrams (mg) Click the image to watch a short video about mass. Which is larger?

  11. Once you have balanced the scale, you add up the amounts on each beam to find the total mass. What would be the mass of the object measured in the picture? _______ + ______ + _______ = ________ g Measuring Mass We will be using triple-beam balances to find the mass of various objects. The objects are placed on the scale and then you move the weights on the beams until you get the lines on the right-side of the scale to match up.

  12. 1st – Place the film canister on the scale. 2nd – Slide the large weight to the right until the arm drops below the line. Move the rider back one groove. Make sure it “locks” into place. 3rd – Repeat this process with the top weight. When the arm moves below the line, back it up one groove. 4th – Slide the small weight on the front beam until the lines match up. Measuring Mass – Triple-Beam Balance 5th – Add the amounts on each beam to find the total mass to the nearest tenth of a gram. Click here to try an online activity.

  13. Volume

  14. kL Metric Units cL mL L Volume is the amount of space an object takes up. The base unit of volume in the metric system in the liter and is represented by L or l. Standard: 1 liter is equal to one cubic decimeter Metric Units 1 liter (L) = 1000 milliliters (mL) 1 milliliter (mL) = 1 cm3 (or cc) = 1 gram* Which is larger? Click the image to watch a short video about volume. A. 1 liter or 1500 milliliters B. 200 milliliters or 1.2 liters C. 12 cm3 or 1.2 milliliters*

  15. Measuring Instruments Differentiate volume-capacity Volume and capacity are sometimes distinguished, with capacity being used for how much a container can hold (with contents measured commonly in litres or its derived units), and volume being how much space an object displaces (commonly measured in cubic metres or its derived units).

  16. What causes the meniscus? A concave meniscus occurs when the molecules of the liquid attract those of the container. The glass attracts the water on the sides. Measuring Volume We will be using graduated cylinders to find the volume of liquids and other objects. Read the measurement based on the bottom of the meniscus or curve. When using a real cylinder, make sure you are eye-level with the level of the water. What is the volume of water in the cylinder? _____ml

  17. Parallax Error Parallax error Parallax is a deceptive change of the position of an object which is observed while the position of the observer changes. Position of eye at all volumetric vessels must be at the same level as the meniscus. If not, the parallax will cause an error while reading the position of the meniscus of a liquid in a burette. It will be a positive mistake if the eye is lower, and negative if the eye is higher than the meniscus plane. If you are measuring the volume of liquid in a measuring cylinder for example, make sure you positioned your eye to take readings at the bottom of menicus for water and top of menicus for mercury.

  18. Measuring Liquid Volume What is the volume of water in each cylinder? Images created at http://www.standards.dfes.gov.uk/primaryframework/downloads/SWF/measuring_cylinder.swf A B C Pay attention to the scales for each cylinder.

  19. 9 cm 8 cm 10 cm We can measure the volume of irregular object using water displacement. Amount of H2O with object = ______About of H2O without object = ______Difference = Volume = ______ Measuring Solid Volume We can measure the volume of regular object using the formula length x width x height. _____ X _____ X _____ = _____ Click here for an online activity about volume. Choose Lessons  Volume & Displacement

  20. Scientific Notation M x 10n • M is the coefficient 1<M<10 • 10 is the base • n is the exponent or power of 10

  21. Other Examples: 5,45E+6 5,45 x 10^6

  22. Numbers less than 1 will have a negative exponent. A millionth of a second is: 0,000001 sec 1x10-6 1,0E-6 1,0x10^-6

  23. Limits of Measurement • Accuracy and Precision

  24. Accuracy - a measure of how close a measurement is to the true value of the quantity being measured.

  25. Example: Accuracy • Who is more accurate when measuring a book that has a true length of 17,0cm? Susan: 17,0cm; 16,0cm; 18,0cm; 15,0cm Amy: 15,5cm; 15,0cm; 15,2cm; 15,3cm

  26. Precision – a measure of how close a series of measurements are to one another. A measure of how exact a measurement is.

  27. Example: Precision Who is more precise when measuring the same 17,0cm book? Susan: 17,0cm; 16,0cm; 18,0cm; 15,0cm Amy: 15,5cm; 15,0cm; 15,2cm; 15,3cm

  28. Example: Evaluate whether the following are precise, accurate or both. Accurate Not Precise Not Accurate Precise Accurate Precise

  29. Accurancy • Absolute error • Relative error Precision= Significant Figures

  30. Absolute Error Error= experimental –accepted value It is the amount of physical error in a measurement. It uses the same units than the measurement.

  31. Relative error (Percent Error) % Error=|experimental –accepted| x100 accepted value (value of thing measured) Relative error gives an indication of how good a measurement is relative to the thing being measured. If a have two students measuring two objects with a metre stick the comparative accurancy of these measurements can be determined by looking at their relative error.

  32. Absolute- relative error Students measured time in an experiment. These measurements are: 3,01 s; 3,11 s; 3,20 s; 3,15 s • True value? (Valor que se considera exacto) • Absolute and relative error for each measurement?

  33. B) Significant Figures= Precision

  34. Significant Figures= Precision • The significant figures in a measurement include all of the digits that are known, plus one last digit that is estimated.

  35. Centimeters and Millimeters

  36. Graduated Cylinder - Meniscus

  37. B) International System of Unitsand Prefixes

  38. Base SI Units

  39. Derived SI Units (examples)

  40. m3 cm3 dm3 L Liter mL 1 dm3 = 1L 1cm3= 1mL Units for Volume

  41. Temperature A measure of how hot or how cold an object is. SI Unit: the kelvin ( K ) • Note: not a degree • Absolute Zero= 0 K

  42. Temperature Scales

  43. Celsius and Kelvin K= oC + 273

  44. Farenheit and Celsius oF= (1,8 oC ) +32

  45. Unit for Weight 1 Newton 1 N= kg m/s2

  46. Units for Energy • Joule J • calorie 1 cal= 4,184 J 1 cal = quantity of heat needed to raise the temp of 1g of water by 1 oC.

  47. Note: 1 Cal = 1kcal =1000cal

  48. SI Unit Prefixes

  49. SI Unit Prefixes for Length

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