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Published byApril Pearson Modified over 9 years ago
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“I’m ten times better than the Standard system of measurement!”
The Metric System “I’m ten times better than the Standard system of measurement!”
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Metric System Many laboratory activities require measurements.
Science uses the S.I. (Metric System) of measurements.
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Measurements in Experiments Metric System
Developed by the French in the late 1700’s. Based on powers of ten, so it is very easy to use. Used by almost every country in the world, with the notable exception of the USA. Especially used by scientists. Called the International System of Units or in French the Le Système International d'Unités abbreviated SI.
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Metric Prefixes Regardless of the unit, the entire metric system uses the same prefixes. Common prefixes are: kilo = 1000 centi = 1/100th milli = 1/1000th pico = 1/1000,000,000,000 or 1 x 1 meter = 100 centimeters =1000 millimeters
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Length The SI base unit for length is the meter (m)
Common units for length – millimeter, centimeter, meter or kilometer Abbreviated (mm, cm, m, km)
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Mass Electronic Balance The SI unit for mass is the kilogram (kg)
Balances are used to determine mass. Common units of mass: gram (g), milligram (mg), kilogram (kg) Your mass in Kg? 1 kg / 2.2 lbs Electronic Balance Triple Beam Balance
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Temperature The Kelvin (K) is the SI unit for temperature
Celsius (0C) is the metric unit for temperature O 0 Celsius = 273 K Know the temperature at which water freezes and boils in the 3 different temperature scales: temperature kelvin degree Celsius degree Fahrenheit symbol K °C °F boiling point of water 373.15 100. 212. melting point of ice 273.15 0. 32. absolute zero
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Volume Units of volume are derived from units of length. Formula:
Volume = length x width x height The metric units of volume are cubic centimeters (cm3) A box 2 cm x 3 cm x 5cm has a volume of __________ ? 30 cm3
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Liquid Volume Graduated Cylinder used to measure volume
1 cm3 of water is equal 1 milliliter (ml) of water and 1 ml of water will always have a mass of one gram. 1 cm3 of anything = 1 mL of anything 1 cm3 water = 1 mL of water = 1 gram Meniscus – the ‘bubble’ that form on the wall of the glass. Always read from the bottom of the meniscus
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Water Displacement Water displacement is used to find the volume of objects that are not boxed shaped. (irregular shaped objects) Example: 50-mL of water is placed in a graduated cylinder. If a rock causes the level to rise to 73-mL, the rock must have a volume of 23-mL. 73 – 50 = 23 mL
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To Convert Measurements use Dimensional Analysis by multiplying by a conversion factor: a factor equal to one. Example: To convert 56 m to km -- 56 m x 1 km = km 1000 m Example: Convert 65 miles per hour (mph) to km/hr 65 mi/hr x km/hr 1 mi /hr = 104 km/hr
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High Accuracy High Precision
Accuracy and Precision Accuracy – describes how close a measurement is to the true value of the quantity measured. Precision – the exactness of a measurement Example: m is more precise than 45.0 m Low Accuracy High Precision High Accuracy Low Precision High Accuracy High Precision So, if you are playing soccer and you always hit the left goal post instead of scoring, then you are not accurate, but you are precise!
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Significant Figures Used to show the precision of a measured quantity
Include all digits that are actually measured plus one estimated digit. Rules: 1) All non zero number are significant = 3 sig figs = 5 sig figs 2) Zeros located between non-zero digits are significant = 4 sig figs This measurement should be read as 4.95 cm. This measurement has 3 significant figures.
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3) Trailing zeros (at the end) are significant only if the number contains a decimal point; otherwise they are insignificant (they don’t count) = 3 sig figs = 6 sig figs = only 3 sig figs 4) Zeros to the left of the first nonzero digit are insignificant (they don’t count); they are only placeholders. = 3 sig figs = 2 sig figs
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Rules for addition/subtraction problems
The number of decimal places in the result equals the number of decimal places in the least precise measurement Example: = Answer = sig figs (rounded up) Rules for multiplication/division problems The number of sig figs in the result equals the number in the least precise measurement used in the calculation Example: (27.2 x ) ÷ = Answer = sig figs (rounded down)
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Estimating the last digit in a measurement
This measurement should be read as 4.95 cm. This measurement has 3 significant figures.
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Reading a metric ruler correctly:
This point can be read as 1.65 cm. or 16.5 mm.
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Density Example: Density of Gold = 19.30 g / ml
Density - the amount of matter (mass) compared to the amount of space (volume) the object occupies. Density – Is a Physical Property of matter - it is a constant, a number that does not change. Example: Density of Gold = g / ml Question: If you cut a brick of gold in half would the Density still be g/ml? Yes…. Why?
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so the units for Density are g/mL, or g/cm3
Formula Density = mass/volume D = M / V The unit for mass is grams (g), and the unit for volume is mL or cm3 usually, so the units for Density are g/mL, or g/cm3
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Density Formula Wheel Mass
Formula wheels make it easy to solve density problems. Cover the property you are trying to find, and do what is left over. To find density, cover the word density. You have mass over volume remaining. So divide mass by volume to find density! Mass density volume
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Density Formula Wheel Mass
To find mass, you cover the word mass. You now have density times volume remaining. To find volume, cover volume. You have mass over density remaining, so divide mass by density to find volume. Mass density volume
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Understanding Density
In the following illustrations, each will represent 1 cm3. Each g will represent 1 gram. Mass = 24g Volume = 8 cm3 Density = 3g/cm3 g g g
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In other words, there are 3 grams in every cm3.
g g g In other words, there are 3 grams in every cm3.
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Density Problem 2 g g Mass = grams Volume = 6 cm3 Density = 2 g/cm3 In English we say the density of the object is 2 grams in every cubic centimeter.
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Density Problem 3 g g g g g g g g g g g g g
Our previous problems were materials of uniform density. They were the same stuff throughout. But many materials are not. Gravel is a great example. Mass = 16 grams Volume = 8 mL Density = 2 g/mL
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Powers of Ten Interactive Tutorial
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How to Convert Metric Units
See link below for an online calculator To convert to larger unit (example: meter to a kilometer), move the decimal point to the left or divide. To convert to a smaller unit (example: meter to centimeter), move the decimal point to the right or multiply. Example: to convert 100 g to kilograms move the decimal place 3 places to the left (or divide by 1000). Answer: kg
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