Branches of Earth Science
Meteorology – the study of the Earth’s atmosphere (weather, climate)
person: meteorologist
tools: wind vane – wind direction
barometer – air pressure
Geology – the study of the origin, history, processes, and structure of the solid Earth (rocks, lithosphere)
person: geologist
tools: rock pick – collect samples
seismograph – detect earthquakes
Oceanography – the study of the Earth’s oceans (salt water)
person: oceanographer
tools: nets – collect life forms
sonar – water depth
Astronomy – the study of the universe beyond the Earth (planets, stars)
person: astronomer
tools: telescope – view far away objects
spectrum – temperature of stars
Hydrology – the study of the fresh water on Earth (lakes, rivers)
person = hydrologist
tools: pH kit – test the acidity of the water
flow meter – water speed
1.2 Science as a Process
Scientific method(s) – a series of steps used to solve a problem; strategies
Step 1 – Make observations
Observation – the process of using the senses of sight, touch, taste, hearing, and smell to gather information about the world
Step 2 – Ask a question
Step 3 – Form a hypothesis
Hypothesis – a possible explanation or solution to a problem; a testable idea or explanation that leads to scientific investigation
Step 4 – Test the hypothesis
Experiment – a scientific test designed to give data under carefully controlled conditions
Independent variable – factors that are changed by the person performing the experiment
Dependent variable – changes as a result of manipulation of one or more other factors
Control – a standard set of items/materials for comparison
Step 5 – Draw conclusions
Data – measurements and events observed and recorded by a scientist
Quantitative data – data that can be measured or counted (quantity)
Qualitative data – data that describes a quality (ex.: sweetness, loudness, etc.)
Later step – Report results/conclusions
Scientific Measurements and Analysis
World-wide system of measurement: International System of Units (SI)
~Also known as the metric system, in which the number 10 is the base unit.
All science measurements are done using SI units or metric
Quantitative data – data that can be measured or counted (quantity)
Qualitative data – data that describes a quality (ex.: sweetness, loudness, etc.)
In the USA we use two methods of measurement: English System and SI
Measuring Length
English System – inch, foot, mile
12 inches = 1 foot
3 feet = 1 yard
5280 feet = 1 mile
Metric System – millimeter, centimeter, meter, kilometer
10 millimeters = 1 centimeter
100 centimeters = 1 meter
1000 meters = 1 kilometer
milli = one thousandth (1/1000)
centi = one hundredth (1/100)
kilo = one thousand (1000)
Measuring Volume (the amount of space something takes up) “liquids”
English system – ounces, pints, quarts, gallons
16 oz. = 1 pint
2 pints = 1 quart
4 quarts = 1 gallon
Metric system – milliliters, centiliters, liter, kiloliter
10 milliliters = 1 centiliter
100 centiliters = 1 liter
1000 milliliters = 1 liter
1000 liters = 1 kiloliter
Measuring mass (the amount of matter an object contains)
We measure mass by using a balance with standard weight units
Weight – a measure of the gravitational force on a mass
English system: ounces, pounds and tons
16 oz. = 1 pound
2000 lbs. = 1 ton
Metric system: milligram, centigram, gram, kilogram
10 g = 1 centigram
1000 mg = gram
1000 g = 1 kilogram
Measuring Temperature
English system – Fahrenheit scale
Water freezes/melts at 32° F
Water boils/condenses at 212° F
Average body temperature is 98.6° F
Metric system – Celsius and Kelvin scales
Water freezes/melts at 0° C
Water boils/condenses at 100° C
Average body temperature is 37° C
~to change from Celsius to Kelvin, add 273
freezing = 273K boiling = 373K
Accuracy – how close a measurement is to the true value of what is being measured
Precision – the exactness of the measurement
Error – the amount of imprecision or variation in a set of measurement
Confidence interval – the range of values for a set percentage of measurements
Model – a description, representation or imitation of an object, system, process or concept
Acceptance of Scientific Ideas
Peer review – the process in which several experts on a given topic review another experts’ work on that topic before the work gets published (bias, accuracy, possible improvements)
Theory – an explanation that is consistent will all existing tests and observations
Scientific law – general statement that describes how the natural world behaves under certain conditions
Technology – the use of scientific discoveries
Technology is constantly changing, which has a drastic effect on life and our world.
“Human goal to improve”
Everywhere you look you can see how science and technology have changed our world:
~robots, computers, calculators, TV, etc.
~music and technology changes: AM/FM, reel to reel tape recorders, records (LP’s), 8 track tapes, cassette tapes, CD’s and DVD’s
~phones: rotary, touch-tone, cordless, cellular
~computers: from the size of buildings, to table top, to laptop, to handheld
~computer disks: floppy 5¼”, 3¼”, 3¼”hd, zip disk, CD’s, thumb drive
~calculators smaller and cheaper
Technology is transferable – this means that it can be applied to new situations
ex.: radar and sonar – first military, then used in astronomy to map planets, meteorology to map rainfall, in oceanography to measure the depth of the oceans, and in biology to track endangered species
Technology can be:
Helpful / HarmfulPredict weather / Cause pollution
Better transportation / Take away jobs
Find new resources / Change too fast
Chapter 1 Notes: Page 1 of 14