1. Scientific Method and Lab Skills

2. What is science? The search for truth.
Discovering how the world works.
An attempt to understand the world we live in.

4. Scientific Method
A way to solve problems

5. Basic Steps: 1. Make observations. Ask questions 2. Hypothesis
3. Experiment
4. Observe and gather data
5. Analyze data
6. Conclusion
7. Peer review

7. Observation: Data collected with any of your senses or tools such as thermometers, balances or rulers.
Inference: Conclusions or deductions based on observations. (they may be subtle and you may be unaware you are making them)
Opinion: everyone has them, but leave them out of data collection and analysis.

8. Honey badger

10. Hypothesis
A hypothesis is an educated prediction of what you think will happen in the experiment.
A hypothesis must be falsifiable. If it can not potentially be proven false, then there is nothing to test.

11. Example…
Why is the following example not falsifiable, therefore not testable??

12. Example…
``the moon is populated by little green men who can read our minds and will hide whenever anyone on Earth looks for them, and will flee into deep space whenever a spacecraft comes near''

13. Practice
“Scott and Ian, identical twins, are sleepy every day in their 1:00 history class: they often doze and want to know why, so they can prevent the drowsiness and improve their history grades.”
Make a list of possible hypotheses about why they are sleepy.

14. Possible hypotheses for twins:
1. If they get 8 hours of sleep, then they will not be sleepy in their history class.
2. If they eat a lighter lunch, then they will be less sleepy during class.
3. If they stop taking cold medication, then they will be less sleepy during class.

15. Experiment All experiments have two main groups:
The Experimental Group
And the Control Group
These two groups are exactly the same except for the one thing you are testing.

16. Control Group This group serves as a comparison to the test group.
This group has “normal” conditions.
Example: Plant is given no fertilizer
Example: Patient is given a placebo/fake medication.

17. Experimental Group Contains the variable you are testing
Example: Plant WITH fertilizer
Example: Patient WITH medication
**Make sure you are only testing ONE thing at a time.

18. Independent Variable The variable you are testing.
The amount of light a plant gets
How much exercise a rat gets
The amount of vitamin C you take.

19. Dependent Variable What you are measuring
The results of the independent variable
How much carbon dioxide is excreted
The height of a plant
The weight of a rat
The sleepiness of the twins

20. Constants (or controls)
The test group should have only ONE variable (what you are testing).
All other variables between your groups must be the same.

21. Find the mistake
Draw this picture in your notes

22. Find the mistake
Too many Variables
-Size of cup
-Temperature of water

23. Find the problems
Draw this picture in your notes

24. Find the problems Variables- Types of Soil - Amount of light
-Type of Plant

25. Correct Set up

26. Characteristics of a good experiment
1. Can be repeated and get the same results
2. Have a large sample size
3. Performed for longer periods of time
4. Test only one independent variable
5. Is objective and unbiased.
6. Make accurate measurements.

27. Small groups vs. large groups
If you test the effects of a medication on two people instead of 100 people, why is that a problem?

28. Placebos
A placebo is “fake medicine”, usually a sugar pill given to the control group.
The patient thinks they are getting real medicine but are only getting a sugar pill.
The “effects” of the placebo can be compared with the effects of the real medicine.

29. Blind and double blind studies
an experimental procedure in which neither the subjects of the experiment nor the persons administering the experiment know the critical aspects of the experiment; "a double-blind procedure is used to guard against both experimenter bias and placebo effects"

30. Data Collection and presentation
In order for your experiment to remain reliable, your data must be reliable.
Make accurate measurements.
Don’t ignore data you don’t like or agree with.

31. Organize data into tables and graphs
A graph can make pages of raw data make more sense.
Overall patterns can be seen better with a graph.

33. Conclusion This is where you ask…. Did my data support my hypothesis?
If your data supports your hypothesis, you are on your way to a theory.
If your data does not support your hypothesis, you try a different experiment.

34. Conclusion must be based on data. Limitations of an experiment:
*You must be careful not to draw conclusions that are not supported by your data. In an experiment on rats, for example, conclusions cannot be automatically applied to other animals.
Dr. Connors turns into a lizard

35. Peer Review Why peer review?
People make mistakes
People lie
Experiment results are published and other scientists check their work for mistakes and can repeat the experiment to see if it really works.

36. Hypothesis: educated guess
Theory: Hypothesis tested true many times.
Law: Still testing true and can lead to accurate predictions.

37. All scientific explanations are subject to change or improve!

38. History of measurements
Distance: In all traditional measuring systems, short distance units are based on the dimensions of the human body.
The inch represents the width of a thumb; in fact, in many languages, the word for "inch" is also the word for "thumb."

40. Metric System:
Designed during the French Revolution of the 1790's, the metric system brought order out of the conflicting and confusing traditional systems of weights and measures then being used in Europe. Prior to the introduction of the metric system, it was common for units of length, land area, and weight to vary, not just from one country to another but from one region to another within the same country.

41. The Earth itself was selected as the measuring stick
The Earth itself was selected as the measuring stick. The meter was defined to be one ten-millionth of the distance from the Equator to the North Pole. The liter was to be the volume of one cubic decimeter, and the kilogram was to be the weight of a liter of pure water.

42. Even more accurate…

43. Measurements Metric Unit English Tools Length Meter Feet Ruler Mass
Gram
Pound
Scale
Volume
Liter
cm3
Gallon
Graduated cylinder, beaker
Temperature
Celsius
Kelvin
Fahrenheit
Thermometer
Measurements

44. SI units scale Kilo- 1000 Deka- 10 (Base) Deci- .1 Centi- .01 Milli-
Deci- .1
Centi-
.01
Milli-
.001
Micro-
Nano-

45. K H D B D C M Unit Conversion 24 meters = _______ cm
997 mm = ______ km