1. THE SCIENTIFIC METHOD
With a little Metric System review and Graphing Strategies thrown in too…

2. Warm-up Questions
What system is used to take measurements in all science classes?
What is the Base unit used to measure:
Length
Mass
Volume
Name 3 prefixes used in this measurement system and what the number associated with each.

3. And the answers are… The METRIC SYSTEM
Length = meter (m), Mass = gram (g), volume = liter (l)
Kilo=1000 (103)
Hecto=100 (102)
Deka=10 (101)
deci=1/10 (10-1)
centi=1/100 (10-2)
milli=1/1000 (10-3)

4. What is Experimental design - the Scientific Method?
Experimental Design is a logical, consistent process for stating and solving problems in the natural world.

5. What are the steps to follow?

6. Generally- Observe Formulate a Question…Problem Statement
Research or Infer to formulate a Hypothesis
Design a Procedure to test this hypothesis
Experiment and record data
Analyze the Results
Draw a Conclusion and communicate the results

7. The Observation starts it all…
An observation is a visible or provable fact or occurrence
VS.
An inference is, “the act of reasoning from factual knowledge or evidence.” This is your opinion drawn on the observations you have made.

10. VS. Variables A variable WE MANIPULATE, or change, in the experiment.
Independent variable
A variable WE MANIPULATE, or change, in the experiment.
VS.
Dependent variable
The Variable that changes as a result of the independent variable.
The variable that is measured and recorded.

11. What is the difference between a constant and a control?
A constant is a variable that does not change through the entire experiment…a value that remains the same.
VS.
The CONTROL is the group or condition that is used as the basis for comparison for the results of the changes in the independent variable

12. What is a Controlled Experiment ?
A Controlled Experiment means that only ONE independent Variable is being tested at a time!!!
This allows the scientists to evaluate the results of the one thing being tested!!!

13. Hypothesis Statement
A hypothesis is the stated outcome predicted to the problem statement that will be evaluated by the experiment…
This is your expected results or your “educated guess” to the problem at hand.
Example: If a superball is dropped from increasing heights, then the bounce height will also increase because....

14. Writing a great PROCEDURE!
Written in outline or list form (step #1 is NEVER ‘Gather all materials’!!!)
IT MUST BE REPEATABLE! A Clear, Concise List of each step to follow…this includes tools used, measurements taken, location, etc…anything necessary to exactly replicate your procedure.

15. Collecting DATA QUANTITATIVE
This is a NUMBER or “quantity” – an objective measure or observation…
Examples: Distance, mass, volume, density
QUALITATIVE
This is a WORD or “quality” – a subjective measure other than an number…
Examples: An odor, color, texture, taste, etc.

16. Ahh, to GRAPH or not to GRAPH
Graphs help to communicate and visualize quantitative (numeric) data.
The most common forms we will use include:
LINE GRAPH
BAR GRAPH
PIE CHART (rare)

17. All Graphs will include:
1. TITLE: The Effect of the (IV) on the (DV)...notice that all words in the title are capitalized except for prepositions.
2. Y-Axis = DEPENDENT variable that will include:
Labels
Unit Measures
Appropriate scale to fit the data
Consistent increments
4. KEY for data series
3. X-Axis = INDEPENDENT variable that will include:
Labels
Unit Measures
Appropriate scale to fit the data
Consistent increments

18. This compares a number to a number!

19. This compares a number to a WORD!

20. This displays percentages or parts of a whole!

21. And the CONCLUSION!
The concluding paragraph (5-8 sentences) should include the following:
Restate the problem statement.
Restate the hypothesis.
Accept or reject the hypothesis using the analysis of your data. Be specific, proving your point with specific data points and trends.
Include a discussion of the validity of your results.
How might this experiment be improved or modified to further test the problem statement.
Summarize or restate you conclusion to finish up!
***This must be written in the third person!***

22. Copyright Cmassengale
Communication- Sharing of information is essential to scientific process
Theory
Supported by considerable evidence-never yet disproven
Ties together related hypotheses
Scientific Law
A Statement of fact that concisely explains an action or group of actions e.g. Law of Gravity
Accepted to be true
Universal
Copyright Cmassengale 22 22