Philosophy of Science l BCB 703 Scientific Methodology
Philosophy of Science l BCB 703: Scientific Methodology Available at http: //planet. uwc. ac. za/nisl Faghrie Mitchell
Summary of section on ancient Egyptians q The two points made in the preceding slides, effectively summarise this section q I have covered the first path so far (striked out). I will combine the second and third paths, and discuss them as if they are one MYTHOLOGY RELIGION DOGMA can SCIENCE PHILOSOPHY can SCIENCE Ref:
What is Philosophy? q How do we maximize right and minimize wrong? q Or rather, How do we maximize SCIENCE and minimize NONSCIENCE? q Just by asking these questions we are asking philosophical questions. We are also answering what philosophy is. q “So what is philosophy anyway? Philosophy is not there to solve practical problems, problems of society or individual. Rather philosophy tests our most fundamental beliefs, values and convictions that we have, and to test them for the purpose of getting them right. This testing is in the form of asking critical questions, of debating, which is the central aspect of the philosophy. Philosophy is the love of wisdom. The love of getting to the right answer using debate. ” (Daniel Robinson, Georgetown University). Ref. Robinson:
What is Philosophy of Science? q Understanding philosophy can be simplified by asking two simple questions, namely: 1. What is good, what is bad? 2. What is right, what is wrong? q The first question relates to human behaviour, specifically, for example, ideas on virtue, morals and ethics. BROAD STATEMENT: Scientists are less interested in this. q The second question relates specifically to ideas on logic and reason, and perception and reality. BROAD STATEMENT: Scientists are more interested in this. q So even though we can say that “Philosophy is not there to solve practical problems, …”, it does not mean that we cannot use philosophical thought to help us solve scientific or practical problems. Ref. Robinson:
The Age of Mythology Wikipedia: Homer q The role of the gods in the thinking of the ancient Greeks is illustrated in the epic by Homer (c. 7 th century BC), called the Iliad q The Iliad is a story which is believed to combine myth (fiction) and ancient Greek history, and is supposed to have happened in the 12 th century (The films Helen of Troy and Troy is based on this story) q The Iliad starts off with the Greek gods Zeus and Poseidon who both desire the sea-nymph, Thetis q They become afraid of pursuing Thetis when it is prophesized that any future son of Thetis wil be greater than his father; so they back off
The Age of Mythology q At the wedding, you have gods, goddesses, demi-gods and mortals in attendance Amazon. com q They allow Thetis to marry the mortal king, Peleus q A dispute arise as to who is the most beautiful goddess. The gods decide that the young Trojan prince, Paris, must decide q He opts for the goddess, Aphrodite, because she promises him the most beautiful woman in the world, which is Helen Ref. Robinson:
The Age of Mythology Amazon. com q Some time later, Paris meets Helen, but unfortunately finds her to be married to Melenaus, a Spartan prince q Helen had many suitors before marriage, each of which who made a pledge to her father to protect Helen and her future husband q So with Helen’s abduction, they set off to Troy Ref. Robinson:
The Rise of Greek Philosophy q It also illustrate that the gods interfere with mortals’ lives, but they remainly interested in their own needs Wikipedia: 12 Gods of Olympus q The Iliad clearly illustrates the fickle, emotional, and unpredictable nature of the gods q The ancient Greeks felt; there was a distance between Olympia (Heaven) and Athenia (Earth) q However, this does not necessarily mean that they started to discard their religion, Olympianism It means that they had to deal with this dualism, each in their own way for example Plato stated: The Earth is imperfect and changeable, the heavens were perfect and immutable
q Prior to the establishment of the first Greek school of thought by Thales of Miletus (c. 624 -546 BC), the Greeks looked only towards Olympia (heaven) and the gods for explanations relating to their world Wikipedia: Thalus of Miletus The Rise of Greek Philosophy q Thales theorem: An inscribed angle in an semicircle is a right angle Wolfram q Also predicted an eclipse would happen in 585 BC which actually occurred
The Rise of Greek Philosophy Wikipedia: Plato q The Greek philosophers, Plato (427347 BC) and Aristotle (384 -322 BC), were the first Greek philosophers to adequately deal with questions about their world, their beliefs and their reality – to confront dualism Wikipedia: Aristotle
The Rise of Philosophy Wikipedia: Raphael’s School of Athens; www. hull. ac. uk
The Rise of Philosophy q Aristotle (on the right): he is interested in particulars, specifics Wikipedia: Raphael; www. hull. ac. uk q Plato (on the left) pointing upwards: he is interested in the forms, universals, generals Ref. Robinson:
The Rise of Philosophy: PLATO Wikipedia q Knowledge is that which is true and that which is believed q 1. Something can be true, but is not believed e. g. some truth about our universe which has not been discovered yet 2. Something can be believed, but is not true e. g. urban legends, myths, conspiracy theories Plato has a top-down perspective on knowledge, he favours deductive reasoning Ref: f. Wikipedia
The Rise of Philosophy: ARISTOTLE q Aristotle more interested in specifics, so he writes the Physics, and then the Metaphysics and later on Historia Animalium www. natuurinformatie. nl q Aristotle (384 -322 BC) differed from Plato in that he had favoured a bottom-up approach, and preferred empiricism over deduction q The Historia Animalium was written rather hastily, but contains lenghthy descriptions of countless species of fish, shellfish, and other, animals and their anatomies. Ref. Robinson:
The Rise of Philosophy: ARISTOTLE q The Physics is collection of lessons on theoretical, methodological, philosophical concerns, rather than physical theories or contents of particular investigations. q It sets the bases for scientists to study the world subject to change, and change, or movement, or motion (kinesis) is one of the chief topics of the work. q The Metaphysics is so named because it came after the Physics. It is divided into three parts (1) ontology, (2) theology and (3) universal science. q Ontology is the study of existence; it has been traditionally defined as 'the science of being'. Theology refers to the study of God (or the gods). Universal science is supposed to be the study of socalled first principles, which underlie all other inquiries. Ref. Robinson:
Plato and Aristotle: Two Perspectives Plato Aristotle “Top down” approach Bottom up approach One starts with an idea Drawing conclusions from observation Theory laden observation Empirical tradition Rational tradition DEDUCTIVE REASONING INDUCTIVE REASONING Ref. Robinson:
Conclusion: Ancient Greek Philosophy q With Plato and Aristotle, the foundations for deductive and inductive reasoning was put in place, methods of thinking which could maximise science and minimise nonscience q However, this was just a start on an otherwise long road MYTHOLOGY RELIGION DOGMA can PHILOSOPHY can SCIENCE NONSCIENCE Ref:
The Rise of the Roman Empire wps. ablongman. com q The Roman Empire started to emerge in 282 BC, after the Etruscans were defeated at the Battle of Populonia, and the defeat of the Greek colony at Tarentum q Rome established colonies in strategic areas, which led to the demise of the Macedonian and Seleucid Empires (c 2 nd century BC) q Rome was the superpower, they controlled the Mediterranean Sea Ref:
The Rise of the Roman Empire Greek culture survived, because Rome took it as its own q However, in general, the Romans did not have the same penchant for the dialectic tradition (debate) and philosophy lost its appeal q Rome was more interested in conquest wps. ablongman. com q Ref:
The Rise of the Roman Empire wps. ablongman. com c. 49 -45 BC Expansion under Julius Caesar 14 -117 CE Height of Roman Power 284 -305 CE The Empire under pressure Pull back from Britain, Dacia and Mesopotamia
The Decline of the Roman Empire wps. ablongman. com c. 400 -526 CE Barbarian migrations and invasions 527 -565 CE Byzantium Empire under Justinian c. 632 -750 CE Rise of Islam
The Byzantine and Islamic Empires q Islam starts to occupy parts of the Byzantine Empire q Start to see emergence of Islamic and Jewish scholars and philosophers who translates Greek texts into Arabic and Latin q E. g. Al-Farabi comments on Plato’s Republic wps. ablongman. com q War between the two blocs, but also dialogue (debate) wps. ablongman. com q 9 th and 10 th centuries
Preservation of Scholarship Wikipedia: Avicenna q Many scholars and philosophers produced, e. g. al-Kindi (801– 873), Al-Farabi (870 -950), Avicenna (9801037), Al-Ghazali (1058 -1111), Averoes (1126 -1198). Wikipedia: Al-Farabi q Al-Farabi (870 -950) comments that justice and rational thought will not come when kings are philosophers and philosophers are kings, but rather it will come when the philosopher is a prophet and a prophet is a philosopher
Preservation of Scholarship q Avicenna (980 -1037) “The Father of Modern Medicine” q Ibn-Khaldun (1332 -1406) “The Father of Social Sciences” www. multimediaquran. com Wikipedia: Averoes q Islam encourages scholarship, as it distinguishes between knowledge, that is (1) ijtihad (debatable) and (2) dogma (non-debatable)
The Fall of the Byzantine Empire Osprey q 1453 Siege mentality q Steady outflow of Byzantine-Greek scholars heading west q Increases scholarship in the West q Scholarship stopped in 476 AD because 1. disintegration of political structures 2. attack and invasions 3. loss control of the Mediterranean and trade routes 4. emergence of the Church
The Scientific Revolution Wikipedia q 12 th and 13 th centuries q The Renaissance q 1543 Scientific Revolution q Publication of Archimedes (287 -212 BC) Wikipedia: Vesalius q Vesalius (1514 -1564) Published work on dissections replaces Galen (129 -200 AD) Wikipedia: Copernicus q Copernicus (1473 -1543) A heliocentric system
The Scientific Revolution Descartes Bacon q 1543 Emergence of Philosophy q Father of Philosophy Rene Descartes (1596 -1626) I think, therefore I am q Johannes Kepler (1571 -1630) Galileo q Galileo Galilei (1564 -1642) Kepler q Emergence of Sir Francis Bacon (1561 -1626)
Descartes (Platonic) vs Bacon (Aristotelian) Plato Aristotle “Top down” approach Bottom up approach One starts with an idea Drawing conclusions from observation Theory laden observation Empirical tradition Rational tradition DEDUCTIVE REASONING Rene Descartes INDUCTIVE REASONING Sir Francis Bacon
Sir Francis Bacon: Induction Wikipedia Observation(s) 1 2 3 Bacon q What is induction? Inductive reasoning starts with an observation. Repeated observation leads one to conclude that: All observed swans are white (specific statement) Therefore all swans are white (general statement)
Problems with Induction q What would happen if we went to Australia and see a black swan? CONCLUSION: We were wrong, our reasoning is not sound Wikipedia: The Black Swan (Cygnus atratus) q What would happen if we stayed in Europe and only saw, white swans during our lifetime? CONCLUSION: All swans are white Wikipedia: Mute Swan (Cygnus olor) q There are weaknesses to the inductive method of reasoning, for example looking at our argument: All observed swans are white (specific statement) Therefore all swans are white (general statement)
Problems with Induction q Induction can be fatal q For example: The turkey has seen may days come and go; say from 01 January to 24 December 01 January-24 December 25 December www. kidzone. ws
Problems with Induction: David Hume Wikipedia q The example of the swans and the turkey are both hasty generalisations, which assumes all swans are white, and turkeys can expect a long life q David Hume (1711 -1776), Scottish philosopher, pointed out this weakness of induction q Hume was however, in agreement with Bacon that knowledge must be gained empirically through observation, experience and experimentation q Despite Hume’s objection and the problems with induction, we see three centuries of induction, a massive gathering of scientific knowledge using induction
Empiricism vs Dogma (Induction vs Deduction) q The Church is dogmatic because it assumes that religious knowledge is true and can be used to derive scientific knowledge or truths; the Church uses deductive reasoning q An example of this clash can be seen with the response of the Church to Galileo, after he supported Copernicus’ idea on a heliocentric system (the Earth is the centre and the other heavenly bodies revolve around it) Wikipedia: Torquemada q The inductive method of inquiry was in opposition to the dogmatic teachings of the Church, which made biased, subjective assumptions Bacon q Sir Francis Bacon emphasised that knowledge could only be gained by experiencing the world i. e. make observations, collect data, conduct experiments (empiricism)
Empiricism vs Rationalism (Induction vs Deduction) q The continental rationalists, like Descartes, Leibniz and Spinoza, drew a distinction between knowledge of eternal truth, for example, mathematics, and knowledge which had to be gained through experience (experimentation), for example, biology Descartes q Descartes was a mathematician and he followed the same method used by the ancient Greek mathematicians, namely, start with a set of ideas (theorems, axioms) and derive a new theorem from that body of existing knowledge Bacon q Bacon and Hume was also in opposition to the Continental Rationalists, for example Rene Descartes (1596 -1626)
Empiricism vs Rationalism (Induction vs Deduction) q New mathematical knowledge can be gained by from existing knowledge using logic and reason q Arrow 1: Use existing mathematical truths (axioms) to derive a preposition); Arrows 2: Prepositions are true if they do not contradict existing knowledge; Arrow 3: New Knowledge (axiom) 2 q E. g. if you want to now the distance from A to B you have to measure it, not so much reason about it Wikipedia q Weakness of rationalism: Only certain knowledge can be derived from logic and reason Observation(s) 1 3
Hypothetico-deductive Method Wikipedia: Popper q The natural and the physical sciences lends itself better to empiricism (induction), and less so to rationalism (deduction, the use of logic and reason alone) q Deduction and induction often work together in the natural and physical science q Sir Karl Popper developed the hypothetico -deductive method to reconcile inductive reasoning with deductive reasoning q The hypothetico-deductive method counters the natural tendency of the mind to want to verify
Hypothetico-deductive Method q Induction ensures that there is an adequate number of unbiased observations (accumulated knowledge) q Induction can be fatal too q Deduction aims to counter the verification of induction It asks logical questions knowledge (obtained via induction) q I will show this by using the example of Global Warming and Global Dimming www. kidzone. ws
Decide relevant kind of information Collect information by observation or experiment Formulate theory Decide relevant kind of information needed to test theory Start Again Collect information by observation or experiment Store information Analyse information Develop generalisation Consider result Formulate theory Falsification Seek verification of theory State law or truth Theory rejected New theory required incorporating good points of original theory and new information Theory provisionally corroborated Expose to more stringent tests Eventual falsification Tests etc.
GLOBAL WARMING? Glacier retreat, snow cover, rising sea levels, weather changes 1. Formulate theory 2. Decide relevant kind of information needed to test theory Start Again Glacier retreat, snow cover, rising sea levels, weather changes 3. Collect information by observation or experiment Analyse information 4. Analyse information Consider result 5. Consider result Theory provisionally corroborated 5. 2. Falsification 5. 2. Theory rejected 5. 5 New theory required incorporating good points of original theory and new information 5. 1. Theory provisionally corroborated 5. 3. Expose to more stringent tests 5. 4. Eventual falsification Tests etc.
GLOBAL DIMMING? Stanhill measures irradiance levels over Israel in aid of irrigation schemes Formulate theory Decide relevant kind of information needed to test theory Start Again Network of light meters Collect information by observation or experiment Very serious reduction in sunlight Analyse information Consider result Theory conflicts with Global Warming, not accepted Confirmation by German, Australian and other scientists Not falsified, incorporated into Global Warming theory Falsification Theory rejected New theory required incorporating good points of original theory and new information Theory provisionally corroborated Expose to more stringent tests Eventual falsification Tests etc.
Thomas Kuhn Wikipedia q Thomas Kuhn (1922 -1996) stated that there are two types of knowledge or science, namely, core science and normal science q Core science is proven scientific knowledge, which scientists do not question, they do not try to falsify it q Normal science is the science that scientist do everyday to find answers, namely, the accumulation of data and to solve questions or puzzles Normal science Core science
Normal Science q Normal science sometimes comes up with anomolies, which does not threaten the core science, for example global dimming was explained to be a symptom of climate change Crisis Revolution Prescience q However, as anomolies accumulate over time, scientists have to revisit what they previously held to be true q Eventually a crisis arises, where they can no longer ignore the anomalies, and must instead replace or modify the existing core science, e. g. Quantum Physics (green line) replaces Newtonian Physics (pink line)
Next Chapter 1 Review of Human Evolution Chapter 2 History and Civilization Chapter 3 Philosophy of Science Chapter 4 To be announced Chapter 5 To be announced Chapter 6 To be announced Chapter 7 To be announced Chapter 8 To be announced Chapter 9 To be announced I hope that you found chapter 3 informative, and that you enjoy chapter 4.
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