History of Science: GED Test Prep (page 2)
In this article, you will read about what drives science, the nature of scientific knowledge, and how the body of scientific knowledge grows and changes over time. You will also find a brief description of some foundation-shaking advances in science.
The world's most renowned scientists once believed that the Earth was flat, that the Sun revolved around the Earth, and that human beings were already fully formed within a woman's body and simply had to grow to full size in the womb. Science has a rich and often tumultuous history. Driven by curiosity and desire to help humanity, scientists have made great progress in understanding nature. This knowledge was in most cases accumulated incrementally, with one small discovery leading to another. Theories were developed to unify and explain available facts. Different interpretation of facts by different scientists has lead to controversies in the past. Some major scientific discoveries created dramatic paradigm shifts—revolutions in our understanding of nature.
Science as a Human Endeavor
What can possibly get someone to study for years, read science journals, repeat experiments countless times,write applications for funding, and present results? Just like a child reaches for a new object, touches it, looks at it, takes it apart, and tries to make it work again, so the scientist looks at nature and tries to understand it. The curiosity almost seems to be innate, and the thrill that comes from understanding nature, or making a new experiment work is well expressed in the following quote.
"I do not think there is any thrill that can go through the human heart like that felt by the inventor as he sees some creation of the brain unfolding to success… Such emotions make a man forget food, sleep, friends, love, everything."
—Nikola Tesla, physicist and inventor
Scientists are driven by curiosity and the thrill that comes from understanding or creating something. At the same time, they are motivated by the desire to improve the quality of life—making everyday chores easier, curing diseases, and solving global and environmental problems. Scientists also seek to use, predict, and control nature—to use sunlight and water for electrical power generation, to forecast the weather and earthquakes, to prevent floods, and to prevent infection of crops and cattle.
The result is that over the years, our understanding of science has greatly improved. Humanity has gone from attributing disease to supernatural beings to developing vaccines, antibiotics, and gene therapy to prevent and cure disease. Since Thales ofMiletus proposed in 625 B.C. that the Earth is a disc that floats on water, humans have discovered the true nature of their planet, have observed other galaxies, and have landed on the moon. The immense progress people have made in science is well expressed in this quote:
The simplest schoolboy is now familiar with truths for which Archimedes would have sacrificed his life."
—Ernest Renan, philosopher
The Nature of Scientific Knowledge
Scientific knowledge is rooted in factual information that is compiled and interpreted to develop theories. While scientists can't help believing and hoping—that their experiments or inventions will work; that they will solve a problem; that their theories are correct—experiments are designed to eliminate, as much as possible, the effect of the beliefs and hopes of the scientist performing them. Different scientists often get conflicting data. Even the same scientist's data is not always consistent. Differences in experimental procedure, that the scientists may or may not be aware of, can all lead different scientists to different conclusions, or even the same scientist to different conclusions, at two different times. Occasionally, this leads to controversy. In the following sections we will briefly describe the nature of scientific knowledge and how beliefs and controversies play a part.
Scientific knowledge is dependent and inseparable from facts. The principles of the scientific method guide scientists to observe facts and to propose hypotheses that can be tested by observing other facts. A hypothesis that can't be verified by collecting scientific facts is not considered part of the domain of science.
As much as a collection of bricks does not equal a house, a collection of facts does not equal science. Scientific facts, like bricks, need to be sorted and stacked properly. Their relationships to each other matter, and need to be established. Scientists need to be able to envision the end result, the way an architect needs to have an idea of what a house should look like. For scientists, the house is the theory—something that unites the facts and makes them meaningful and useful. Theories are formed when a connection between facts is first observed. The theories are then developed by looking for more facts that fit into the theory, and by modifying the theory to include or explain the facts that do not fit.
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