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--- public:rem4:rem4-16:course_overview [2016/08/18 16:20] – thorisson2
+++ public:rem4:rem4-16:course_overview [2024/04/29 13:33] (current) – external edit 127.0.0.1
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 ==== Science, Technology, Philosophy, Mathematics ====
-|  Philosophy  | A systematic investigation into any phenomenon.  |
+|  Philosophy  | A systematic investigation into any phenomenon. Fundamental principle: Human reasoning and creativity.  |
-|  Science  | A systematic investigation into phenomena in the natural world susceptible to physical experimentation.  |
+|  Science  | A systematic investigation into phenomena in the natural world susceptible to physical experimentation. Fundamentally inductive.  |
-|  Technology | Tools and techniques for getting things done.  |
+|  Technology  | Tools and techniques for getting things done. Fundamental principle: Composition.  |
-|  Mathematics | A systematic study of numbers and their relationships.  |
+|  Mathematics  | A systematic study of quantity, numbers, patterns, and their relationships. Fundamentally deductive.  |
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-====The Scientific Method: Theories (Philosophy of Science) ====
+====Theories of the Scientific Method (Philosophy of Science) ====
 |  A scientific theory ties up loose ends  | A good scientific theory shows how data connects.   |
 |  A scientific theory predicts  | A good scientific theory can be used to predict known and unknown results.   |
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 ====Experimental Design====
-|  Sorting out variables  |Independent variables: These are factors that need to be controlled for the results to be more intelligible. Example: If we want to study the efficiency speedup seen by a new multi-cultural word processor we would want to have all or some of the cultures represented when we do the study. |
+|  Sorting out variables  | Independent variables: These are factors that need to be controlled for the results to be more intelligible. Example: If we want to study the efficiency speedup seen by a new multi-cultural word processor we would want to have all - or at least some (not just one) - of the cultures represented when we do the study.  |
-|  Dependent variables:  | These are "the things we want to measure", e.g. the speedup seen with the new word processor.|
+|  Dependent variables  | These are "the things we want to measure", e.g. the speedup seen with the new word processor.|
-|  Designing the experiment  | How do we measure the dependent variables? \\ How do we control the independent variables? \\ What are the hypotheses? \\ How will we run the experiment?|
+|  Designing the experiment  | How do we measure the dependent variables? \\ How do we control the independent variables? \\ What are the hypotheses? \\ How will we run the experiment?  |
-|  Collecting data, analyzing results  | Running experiments. \\ Reading from sensors. \\ Running through statistical methods to separate signal from noise. \\ etc. |
+|  Collecting data, analyzing results  | Running experiments. \\ Reading from sensors. \\ Running through statistical methods to separate signal from noise. \\ etc.  |
 |  Writing up of the data  |... in scientific papers and technical reports.  |
 |  Submission  | to scientific outlets, e.g. journals, conferences, workshops, etc.  |
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 |  Related work  |A concise yet thorough explanation of what others have done and its relation to what you have done. This motivates your work described in this paper.  |
 |  Description of work  |Your contribution - What you did.  |
+|  Results  |What the measured readings were.  |
 |  Summary or Conclusions  |A summary summarizes what has been said. It is different from the abstract in that the motivation is typically not restated. Conclusions describe the conclusions drawn. Some (especially longer) papers have both these sections.|
 |  Acknowledgments  |You probably got some help on your paper. Make sure you thank those who helped you!  |
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 ====Theses====
 |  Not very different from standard scientific publications  | The scientific paper provides the basic model  |