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Studying Biology: Start with a question. How do we get answers?

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Presentation on theme: "Studying Biology: Start with a question. How do we get answers?"— Presentation transcript:

1 Studying Biology: Start with a question. How do we get answers?
For example: How? Why? When? Where? Etc? How do we get answers? Strong Inference presents one method (article on webpage)

2

3 Cause of Peptic Ulcers:
Overabundance of stomach acid due to Stress Diet Anxiety

4 Cause of Peptic Ulcers:
Overabundance of stomach acid due to Stress Diet Anxiety Treatment: Antiacid U.S. bought $4.4 billion in 1992 Tranquilizers

5 Dr. Barry Marshall

6 The real cause of 80% of ulcers…
H. pylori

7 Strong Inference Knowledge is gained by eliminating incorrect ideas.
Disproof is more reliable than proof.

8

9 Where does the matter come from for plants to grow?
Matter can not normally be created or destroyed, only moved from one place to another.

10 Aristotle (~2,300 y.a.): Plants gain mass by taking it from the soil.
Supporting Evidence: Plants need soil to grow. If roots are removed, plants die. After several years of cultivation, soil loses its ability to support plant growth.

11 Johann Baptista van Helmont
did a simple experiment in the early 1600’s

12 What is the major difference between these two approaches to science?
Aristotle (~2,300 y.a.): Plants gain mass by taking it from the soil… Johann Baptista van Helmont in 1600’s Supporting Evidence: Plants need soil to grow. If roots are removed, plants die. After several years of cultivation, soil loses its ability to support plant growth.

13 The Rules of Strong Inference:
Strong Inference is a method for looking at scientific problems by trying to disprove hypotheses and accepting the hypotheses that can not be disproved. Using Strong Inference entails following these rules (from an article by John Platt, 1964): 1. Devise multiple hypotheses.

14 The Rules of Strong Inference:
Strong Inference is a method for looking at scientific problems by trying to disprove hypotheses and accepting the hypotheses that can not be disproved. Using Strong Inference entails following these rules (from an article by John Platt, 1964): 1. Devise multiple hypotheses. 2. Design experiment(s) to eliminate one or more of the hypotheses.

15 The Rules of Strong Inference:
Strong Inference is a method for looking at scientific problems by trying to disprove hypotheses and accepting the hypotheses that can not be disproved. Using Strong Inference entails following these rules (from an article by John Platt, 1964): 1. Devise multiple hypotheses. 2. Design experiment(s) to eliminate one or more of the hypotheses. 3. Carry out the experiments in a manner that gives a clean result.

16 The Rules of Strong Inference:
Strong Inference is a method for looking at scientific problems by trying to disprove hypotheses and accepting the hypotheses that can not be disproved. Using Strong Inference entails following these rules (from an article by John Platt, 1964): 1. Devise multiple hypotheses. 2. Design experiment(s) to eliminate one or more of the hypotheses. 3. Carry out the experiments in a manner that gives a clean result. 4. Repeat. Refine hypotheses.

17 The Rules of Strong Inference:
Strong Inference is a method for looking at scientific problems by trying to disprove hypotheses and accepting the hypotheses that can not be disproved. Using Strong Inference entails following these rules (from an article by John Platt, 1964): 1. Devise multiple hypotheses. 2. Design experiment(s) to eliminate one or more of the hypotheses. 3. Carry out the experiments in a manner that gives a clean result. 4. Repeat. Refine hypotheses.

18 The Question: Can your hypothesis be disproved?
What experiment(s) can disprove your hypothesis?

19 The Rules of Strong Inference:
Strong Inference is a method for looking at scientific problems by trying to disprove hypotheses and accepting the hypotheses that can not be disproved. Using Strong Inference entails following these rules (from an article by John Platt, 1964): 1. Devise multiple hypotheses. 2. Design experiment(s) to eliminate one or more of the hypotheses. 3. Carry out the experiments in a manner that gives a clean result. 4. Repeat. Refine hypotheses.

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