Order and Science:
The main purpose of science is to trace, within the chaos and flux of phenomena, a consistent structure with order and meaning. This is called the philosophy of rationalism, rational as in conforming with reason. And the purpose of scientific understanding is to coordinate our experiences and bring them into a logical system.
Thoughout history, intellectual scientific efforts have been directed towards the discovery of pattern, system and structure, with a special emphasis on order. Why? Primarily, the control of the unpredictable driven by the fear of the unknown. Those who persue answers are known as scientists. The main occupation of a scientist is problem solving with the goal of understanding the Universe.
Scientific arguments of logic basically take on four possible forms; 1) the pure method of deduction, where some conclusion is drawn from a set of propositions (i.e. pure logic), 2) the method of induction, where one draws general conclusions from particular facts that appear to serve as evidence, 3) by probability, which passes from frequencies within a known domain to conclusions of stated likelihood, and 4) by statistical reasoning, which concludes that, on the average, a certain percentage of a set of entities will satisfy the stated conditions.
The fact that scientific reasoning is so often successful is a remarkable property of the Universe, the dependability of Nature.
To support these methods, a scientist also uses a large amount of skepticism to search for any fallacies in hypothesis or scientific arguments. In order to draw conclusions, a scientist uses the scientific method, a rigorous standard of procedure and discussion that sets reason over irrational belief. Central to the scientific method is a system of logic.
The scientific method has four steps:
Note that there is an emphasis on falsification, not verification. If a theory passes any test then our confidence in the theory is reinforced, but it is never proven correct in a mathematically sense. Thus, a powerful hypothesis is one that is highly vulnerable to falsification and that can be tested in many ways. Science can be separated from pseudo-science by the Principle of Falsification, the concept that ideas must be capable of being proven false in order to be scientifically valid.
Much of science education is the construction of a 'mental toolbox' that, when applied to observations, is used to interpret within the framework of our current physics.
The purpose of the scientific method is the construction of models and theories, all with the final goal of understanding.
Cause and Effect:
Newtonian or classical physics, and all sciences derived from physics, rests squarely on the principle of locality, the idea that an object is influenced directly only by its immediate surroundings.
There are three components to cause and effect:
- contiguity in space
- temporal priority of the cause (i.e. its first)
- necessary or energy connection
The necessary connection in cause and effect events is the exchange of energy, which is the foundation of information theory => knowledge is power (energy).
Also key to cause and effect is the concept that an object's existence and properties are independent of the observation or experiment and rooted in the material reality of Nature.
Causal links build an existance of patterns that are a manifestation of the Universe's rational order. Does the chain of cause and effect ever end? Is there an `Initial Cause'?
Reductionism is the belief that any complex set of phenomena can be defined or explained in terms of a relatively few simple or primitive ones.
For example, atomism is a form of reductionism in that it holds that everything in the Universe can be broken down into a few simple entities (elementary particles) and laws and interactions among them. Modern chemistry reduces chemical properties to ninety or so basic elements (kinds of atoms) and their rules of combination.
To a reductionist, once a set of equations or mathematical relations has been found to describe a system, then the behavior of the system is considered to be explained.
Reductionism was widely accepted due to its power in prediction and formulation. It is, at least, a good approximation of the macroscopic world (although it is completely wrong for the microscope world, see quantum physics).
Too much success is a dangerous thing since the reductionist philosophy led to a wider paradigm, the methodology of scientism, the view that everything can and should be reduced to the properties of matter (materialism) such that emotion, aesthetics and religious experience can be reduced to biological instinct, chemical imbalances in the brain, etc. The 20th century reaction against reductionism is relativism. Modern science is somewhere in between.
(1) Astronomy involves many disciplines, but certain captures the imagination more than any other science.
(2) Astronomy asks the basic, most fundamental questions of existence. The purpose of astronomy is to explain stellar phenomenon in rational, coherent manner
(3) Astronomy = study of all things above the atmosphere of the Earth.
Astronomy differs from other sciences in that:
- an astronomer can not change the parameters of an experiment, i.e. only passive observations are allowed
- the distances are very large
- timescales are very long
- we are exploring very exotic phenomenon, yet we are limited by current physical framework
The language of science is mathematics. Measurements in astronomy are usually performed using trigonometry, a system of lengths and angular measures. Angular measure is used to denote apparent size, then deduce absolute size if distance to object is known.
Scientific notation are powers of ten notation, a short-hand method of expressing very large and very small numbers.
Example: How long does it take for light to travel from Sun to the Earth?
Exponents are useful in astronomy since we are dealing with numbers ranging from atomic scale to size of Solar System. Consider the following example:
With respect to astronomical scales, the following demonstrates the range we will encounter in this course.