Scientific method

Scientific methods or processes are considered fundamental to the scientific investigation and acquisition of new knowledge based upon physical evidence by scientific communities. Scientists use observations and reasoning to develop technologies and propose explanations for natural phenomena in the form of hypotheses. Predictions from these hypotheses are tested by experiment and further technologies developed. Any hypothesis which is cogent enough to make predictions can then be tested reproducibly in this way. Once it has been established that a hypothesis is sound (by use of the above methods), it becomes a theory. Sometimes scientific development takes place differently with a theory first being developed gaining support on the basis of its logic and principles. For example the theory of general relativity was invented, gained supporters, and only later confirmed by experiment.

Evaluations and iterations

Testing and improvements

The scientific process is iterative. At any stage it is possible that some consideration will lead the scientist to repeat an earlier part of the process. Failure to develop an interesting hypothesis may lead a scientist to re-define the subject they are considering. Failure of a hypothesis to produce interesting and testable predictions may lead to reconsideration of the hypothesis or of the definition of the subject. Failure of the experiment to produce interesting results may lead the scientist to reconsidering the experimental method, the hypothesis or the definition of the subject.

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Other scientists may start their own research and enter the process at any stage. They might adopt the characterization and formulate their own hypothesis, or they might adopt the hypothesis and deduce their own predictions. Often the experiment is not done by the person who made the prediction and the characterization is based on experiments done by someone else. Published results of experiments can also serve as a hypothesis predicting their own reproducibility.

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Light

Light had long been supposed to be made of particles. Isaac Newton, and before him many of the Classical Greeks, was convinced it was so, but his light-is-particles account was overturned by evidence in favor of a wave theory of light suggested most notably in the early 1800s by Thomas Young, an English physician. Light as waves neatly explained the observed diffraction and interference of light when, to the contrary, the light-as-a-particle theory did not. The wave interpretation of light was widely held to be unassailably correct for most of the 19th century. Around the turn of the century, however, observations were made that a wave theory of light could not explain. This new set of observations could be accounted for by Max Planck's quantum theory (including the photoelectric effect and Brownian motion—both from Albert Einstein), but not by a wave theory of light, nor by a particle theory.

Related Topics:
Light - Isaac Newton - Wave theory of light - Thomas Young - Max Planck - Quantum theory - Photoelectric effect - Brownian motion - Albert Einstein

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DNA/iterations

: After considerable fruitless experimentation, being discouraged by their superior from continuing, and numerous false starts, Watson and Crick were able to infer the essential structure of DNA by concrete modelling of the physical shapes of the nucleotides which comprise it. They were guided by the bond lengths which had been deduced by Linus Pauling and the X-ray diffraction images of Rosalind Franklin.

Related Topics:
DNA - Model - Of the physical shapes - Nucleotide - Linus Pauling

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Confirmations

Science is a social enterprise, and scientific work tends to be accepted by the community when it has been confirmed. Crucially, experimental and theoretical results must be reproduced by others within the science community. Researchers have given their lives for this vision; Georg Wilhelm Richmann was killed by ball lightning to his forehead (1753) when attempting to replicate the 1752 kite experiment of Benjamin Franklin.

Related Topics:
Georg Wilhelm Richmann - Ball lightning - 1753 - 1752 - Kite - Experiment - Benjamin Franklin

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