Galileo And Pasteur example essay topic
Hellenic science was built upon the foundations laid by Thales and Pythagoras. It reached its zenith in the works of Aristotle and Archimedes. Aristotle (384-322 B.C.) represents the first tradition, that of qualitative forms and teleology. He was, himself, a biologist whose observations of marine organisms were unsurpassed until the 19th century. Biology is essentially teleological-the parts of a living organism are understood in terms of what they do in and for the organism-and Aristotle's biological works provided the framework for the science until the time of Charles Darwin. Aristotle was able to make a great deal of sense of observed nature by asking of any object or process: what is the material involved, what is its form and how did it get that form, and, most important of all, what is its purpose What should be noted is that, for Aristotle, all activity that occurred spontaneously was natural.
Hence, the proper means of investigation was observation. Experiment, that is, altering natural conditions in order to throw light on the hidden properties and activities of objects, was unnatural and could not, therefore, be expected to reveal the essence of things. However, the establishment of the importance of classifying knowledge and of observation as well as the introduction of the deductive method of reason in can be taken as Aristotle's most significant contributions to the scientific method. Even after the intellectual revolutions of centuries to follow, Aristotelian concepts and ideas remained embedded in Western thinking.
The critical tradition of science began with Copernicus in the sixteenth century. It eventually led to the work of Galileo (1564-1642), which criticised the very roots of the Aristotelian world system. With the invention of the telescope Galileo, in quick succession, announced that there were mountains on the Moon, satellites circling Jupiter, and spots upon the Sun. Moreover, the Milky Way was composed of countless stars whose existence no one had suspected until Galileo saw them. Galileo attacked the problems of the Earth's rotation and its revolution by logical analysis. Bodies do not fly off the Earth because they are not really revolving rapidly, even though their speed is high.
In revolutions per minute, any body on the Earth is going very slowly and, therefore, has little tendency to fly off. Bodies fall to the base of towers from which they are dropped because they share with the tower the rotation of the Earth. Hence, bodies already in motion preserve that motion when another motion is added. So, Galileo deduced, a ball dropped from the top of a mast of a moving ship would fall at the base of the mast.
If the ball were allowed to move on a frictionless horizontal plane, it would continue to move forever. Hence, Galileo concluded, the planets, once set in circular motion, continue to move in circles forever. Therefore, Copernican orbits exist. Galileo never acknowledged Kepler's ellipses; to do so would have meant abandoning his solution to the Copernican problem. Galileo's originality as a scientist lay in his method of inquiry.
First he reduced problems to a simple set of terms on the basis of everyday experience and common-sense logic. Then he analyzed and resolved them according to simple mathematical descriptions. The success with which he applied this technique to the analysis of motion opened the way for modern mathematical and experimental physics. Louis Pasteur (1822-1895) was a French chemist and microbiologist.
His discovery that most infectious diseases are caused by germs, known as the "germ theory of disease", is one of the most important in medical history. Pasteur's phenomenal contributions to microbiology and medicine can be summarized as follows. First, he championed changes in hospital practices to minimize the spread of disease by microbes. Second, he discovered that weakened forms of a microbe could be used as an immunization against more virulent forms of the microbe. Third, Pasteur found that rabies was transmitted by agents so small they could not be seen under a microscope, thus revealing the world of viruses. As a result he developed techniques to vaccinate dogs against rabies, and to treat humans bitten by rabid dogs.
And fourth, Pasteur developed "pasteurization", a process by which harmful microbes in perishable food products are destroyed using heat, without destroying the food. Pasteur's work is not simply the sum of his discoveries. It also represents the revolution of scientific methodology. Pasteur superimposed two indisputable rules of modern research: the freedom of creative imagination necessarily subjected to rigorous experimentation.
His work became the foundation for the science of microbiology, and a cornerstone of modern medicine.