Presentation is loading. Please wait.

Presentation is loading. Please wait.

Labs start today Inquiry 1 proposal due 9/10 or 9/14

Published byLynette Stevenson Modified over 6 years ago

Similar presentations

Presentation on theme: "Labs start today Inquiry 1 proposal due 9/10 or 9/14"— Presentation transcript:

1 Labs start today Inquiry 1 proposal due 9/10 or 9/14 Class communication via Blackboard, webpage, and/or

2 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)

3 Dr. Barry Marshall

4 The obvious or accepted answer was not the correct answer...
Without alternative ideas, the answer would not have been found.

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

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

7 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.

8 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.

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

10 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.

11 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.

12 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.

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. 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.

14 What experimental errors might have been made?
Johann Baptista van Helmont did a simple experiment in the early 1600’s

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. 4. Repeat. Refine hypotheses.

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 Questions: Can your hypothesis be disproved?
What experiment(s) can disprove your hypothesis?

18 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.

19

20 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.

21 What causes Mad Cow Disease (aka BSE)?

22 Brain tissue from cow with BSE
Brain tissue from cow with BSE. Scrapie in sheep, CJD or Kuru in humans looks similar. normal mild severe

23 Is Mad Cow Disease (BSE) transmissible?

24 How could you test for the infectious agent?

25 Dr. Stanley Prusiner was awarded the Nobel Prize in for the discovery of prions… infectious proteins.

26 Prion Propogation normally folded proteins
Interaction between prion and normal protein causes normal protein to misfold… Prion Propogation Prion (abnormally folded protein) … which leads to increasing numbers of prions

27 Labs start today Inquiry 1 proposal due 9/10 or 9/14 Class communication via Blackboard, webpage, and/or

Download ppt "Labs start today Inquiry 1 proposal due 9/10 or 9/14"

Similar presentations

Upcoming- Discussions, Webpage live: past and future class info, First reading assignment soon.

Upcoming- Discussions, Webpage live: past and future class info, First reading assignment soon.
Transmissible Spongiform Encephalopathies (Prion disorders)

Transmissible Spongiform Encephalopathies (Prion disorders)
BHS 204-01 Methods in Behavioral Sciences I April 11, 2003 Chapter 2 (Stanovich) – Cont. from Wed. Chapter 3 (Ray) – Developing the Hypothesis.

BHS Methods in Behavioral Sciences I April 11, 2003 Chapter 2 (Stanovich) – Cont. from Wed. Chapter 3 (Ray) – Developing the Hypothesis.
Dr. Stuart Reichler Bio 301M. Bio 301M: Ecology, Evolution, and Society M-F 11:30am-1pm in WEL 2.304 Prof: Dr. Stuart Reichler Office: Bio 6

Dr. Stuart Reichler Bio 301M. Bio 301M: Ecology, Evolution, and Society M-F 11:30am-1pm in WEL Prof: Dr. Stuart Reichler Office: Bio 6
Prion biology problem space: Mad cows, itchy sheep and protein structure.

Prion biology problem space: Mad cows, itchy sheep and protein structure.
Introduction to Experimental Design

Introduction to Experimental Design
The Process of Science Science is the quest to understand nature.

The Process of Science Science is the quest to understand nature.
Big Idea 1: The Practice of Science Description A: Scientific inquiry is a multifaceted activity; the processes of science include the formulation of scientifically.

Big Idea 1: The Practice of Science Description A: Scientific inquiry is a multifaceted activity; the processes of science include the formulation of scientifically.
Freshman Research Initiative- research methods Dr. Stuart Reichler UGS 303.

Freshman Research Initiative- research methods Dr. Stuart Reichler UGS 303.
Dr. Stuart Reichler Bio 325. DateSubject Sept 6Introduction, Philosophy of Science, and Strong Inference 11DNA and Gene Structure 13Signal Transduction.

Dr. Stuart Reichler Bio 325. DateSubject Sept 6Introduction, Philosophy of Science, and Strong Inference 11DNA and Gene Structure 13Signal Transduction.
Labs start today, or Thursday Inquiry 1 proposal due 9/9 or 9/13 Class communication via Blackboard, webpage, and/or email.

Labs start today, or Thursday Inquiry 1 proposal due 9/9 or 9/13 Class communication via Blackboard, webpage, and/or .
Designing an Experiment Lesson 1.3 Chapter 1: Using Scientific Inquiry Interactive Science Grade 8, Pearson Education Inc., Upper Saddle River, New Jersey.

Designing an Experiment Lesson 1.3 Chapter 1: Using Scientific Inquiry Interactive Science Grade 8, Pearson Education Inc., Upper Saddle River, New Jersey.
Today: A little more Strong Inference Why are you connected to polar bears? How do we know that anyone else knows anything?

Today: A little more Strong Inference Why are you connected to polar bears? How do we know that anyone else knows anything?
Experiment Guidelines on webpage From: Calvin and Hobbes by Bill Watterson.

Experiment Guidelines on webpage From: Calvin and Hobbes by Bill Watterson.
Prions_Stanley B. Prusiner Wen-Chun Shaw Wen-Chun Shaw BTC 575 052 SCIENTIFIC DISCOVERY BTC 575 052 SCIENTIFIC DISCOVERY Dr. Vankley Dr. Vankley.

Prions_Stanley B. Prusiner Wen-Chun Shaw Wen-Chun Shaw BTC SCIENTIFIC DISCOVERY BTC SCIENTIFIC DISCOVERY Dr. Vankley Dr. Vankley.
Labs start next week (first reflection due)

Labs start next week (first reflection due)
Prions “Scrapie” “mad cow disease” Nobel Prize 1997

Prions “Scrapie” “mad cow disease” Nobel Prize 1997
Dr. Stuart Reichler Bio 325. Sample Exam Questions: Some organisms have much more DNA than humans do. Does this mean that they can make a greater diversity.

Dr. Stuart Reichler Bio 325. Sample Exam Questions: Some organisms have much more DNA than humans do. Does this mean that they can make a greater diversity.
Microbes and Diseases Chapter 02. CREUTZFELDT-JAKOB DISEASE Prion.

Microbes and Diseases Chapter 02. CREUTZFELDT-JAKOB DISEASE Prion.
Inquiry 1 proposal and homework #1 are due in lab week of 9/15. From: Calvin and Hobbes by Bill Watterson.

Inquiry 1 proposal and homework #1 are due in lab week of 9/15. From: Calvin and Hobbes by Bill Watterson.

Similar presentations

Ads by Google