1 / 32

Science 1101

Science 1101. Science, Society, and the Environment I Instructor Valerie King. Lecture 1 Outline. I. What is Science? A. Forms of Scientific Inquiry B. Types of Logic II. Scientific Design A. Scientific Method B. Theory and Laws III. Scientific Method in Action

ike
Download Presentation

Science 1101

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Science 1101 Science, Society, and the Environment I Instructor Valerie King

  2. Lecture 1 Outline I. What is Science? A. Forms of Scientific Inquiry B. Types of Logic II. Scientific Design A. Scientific Method B. Theory and Laws III. Scientific Method in Action A. Examples B. Statistics

  3. What is Science? • “Science” derived from Latin ‘to know’ • Way of asking and answering questions • Seeking answers to questions about natural phenomena (we are therefore limited to what kinds of questions we ask) • Scientific thinking reduces emotional reactions

  4. Forms of Scientific Inquiry • Discovery or Descriptive Science • Observation • Qualitative vs. Quantitative data

  5. Types of Logic • Inductive Reasoning • Derive generalizations based on specific observations

  6. Types of Logic • Inductive Reasoning • Derive generalizations based on specific observations • Deductive Reasoning - Specific predictions follow from general premise

  7. Forms of Scientific Inquiry • Discovery or Descriptive Science • Observation • Qualitative vs. Quantitative data • Hypothesis-Based Science

  8. Scientific Design • Scientific knowledge begins with an observation and a proposed explanation. • Explanation called a hypothesis • A hypothesis is testable and falsifiable • In science hypotheses are tested by using them to make predictions about how a particular system will behave

  9. Example • Hypothesis: all objects fall when dropped • Test this by dropping objects • Each object we drop is a test of our prediction, the more successful tests the more confidence in our hypothesis

  10. What if we drop a helium balloon? What if we drop something in the space shuttle in space? These are clear exceptions to our original hypothesis-does this make our hypothesis invalid?

  11. Theories and Natural Laws • Theory: a description of the world that covers a relatively large number of phenomena and has met many observational and experimental tests • Law of Nature: theory (or group of theories) that has been tested extensively and seems to apply everywhere in the universe-they become part of the conceptual framework of a particular field

  12. Scientific Method in Action • We use the scientific method in everyday life • Example: You got in your car to drive up here and turned the key but the car wouldn’t start (observation)

  13. Scientific Method in Action Example: You got in your car to drive up here and turned the key but the car wouldn’t start (observation) Hypothesis: There is something wrong with the car

  14. Scientific Method in Action Example: You got in your car to drive up here and turned the key but the car wouldn’t start (observation) Hypothesis: There is something wrong with the car Predictions: battery dead, ignition problem, out of gas

  15. Scientific Method in Action • Test predictions: turn on headlights, check spark plug wires, dip stick in gas tank

  16. Scientific Method in Action • Test predictions: turn on headlights, check spark plug wires, dip stick in gas tank • Analyze results: headlights work, strong ignition spark, no gas on dip stick-gas gauge reads half full

  17. Scientific Method in Action • Test predictions: turn on headlights, check spark plug wires, dip stick in gas tank • Analyze results: headlights work, strong ignition spark, no gas on dip stick-gas gauge reads half full • Draw conclusion: gauge inaccurate, out of gas

  18. Scientific Method in Action • I want to market a new flea collar for dogs that is a natural remedy-no harsh chemicals. But first I have to see if it really works. • Hypothesis: King’s collar repels fleas • Prediction: dogs wearing the King collar will have fewer fleas than dogs not wearing the King collar

  19. Important terms: Independent (manipulated) variable: condition or event under study (choose 1) Dependent (responding) variable: condition that could change under the influence of the independent variable (measure this) Controlled variables: conditions which could effect the outcome of the expt so they must be held constant between groups.

  20. experimental group: group(s) subjected to the independent variable control group: group not subjected to the independent variable, used as measuring stick reproducibility: producing the same result consistently to verify result. It is therefore important to describe your experimental design in enough detail for others to perform the same experiment.

  21. Let’s recap • Hyp: King’s collar repels fleas • Pred: dogs wearing King’s collar will have fewer fleas than those without collar IV: King’s collar DV: presence of fleas CV’s: anything that might effect the number of fleas on the dogs Can we think of some???

  22. Experimental Design • Obtain 500 dogs of various breeds from local shelters. Have vet weed out the 200 dogs with the most fleas. Randomly assign individuals to 2 groups. • Board the dogs in identical environments and treat them the same except that one group gets to wear the King collar and the other group does not • After 2 wks. The dogs are examined by a vet for fleas.

  23. Results: the dogs wearing the King collars were virtually free of fleas after the 2 wk period compared to the dogs without the collars which had about the same number of fleas as when the experiment began

  24. Second Example • Observation: polar bears are white, you wonder why this is so • Hypotheses: Match arctic landscape for protection/predation White fur may reduce heat loss in warm-blooded animals Maybe polar bears are unable to produce melanin therefore they are white as result

  25. Prediction: polar bears which are white will capture more prey than those which are dark • IV: color of bears • DV: number of prey • Experimental Design: spray paint 5 polar bears dark(experimental Group)/leave 5 white(control group) Track prey capture for 8 weeks

  26. Effect of Polar Bear coat color on prey capture

  27. Probability and Statistics • Probability: an attempt to measure and predict the likelihood of an event • Statistics: allow you to evaluate comparisons between experimental and control groups

  28. Effect of Polar Bear coat color on prey capture Mean: sum the values, divide by the number of values

  29. Assumptions: factors thought to be true for the investigation but have not been verified or controlled • Commonly accepted information • Thought to be held constant but not controlled • Factors beyond the investigators control because of technical or time considerations • Incorrect assumptions invalidate an experiment!

  30. Assumptions: 1. All of the bears are equally hungry 2. Spray painting the bears has no effect on their behavior etc. accept to make them stand out on the ice 3. Our sample of bears is a good representation of the polar bear population in general

  31. Statistics • Sample Size: # of observations necessary to have a reliable representation of a population • Confidence Limits: estimates that reflect the reliability of your mean (average) • Probability your sample is similar to other random samples of that population

More Related