A growing numberย ofย states are passing laws that callย proven scientificย theoriesย into question.
By Dr. Ryan Summers
Associate Professor of Science Education
University of North Dakota
Introduction
Scientific theory has had a rough time in Americaโs public schools.
Almost 100 years ago, science teacher John Scopes was convicted of violating a Tennessee law that prohibited teaching the theory of evolution. Although hisย conviction was overturnedย on a technicality in 1927, laws banning classes on Darwinโs theory stuck around for another 40 years. They wereย ruled unconstitutional by the U.S. Supreme Courtย in 1968.
Over the past few decades, conservative or religious groups that object to including the theory of evolution in science classes haveย tried a different approach. Now,ย they argue, if the โscientificโ theory of evolution is taught, other views, such as โintelligent designโ โ a stand-in for creationism โย should also be taught.
Broadening Efforts
The approach isย not limited to evolution. Legislatures across the country are proposing or passing laws that purport to encourage scientific discussion, but instead encourage students to treat established, scientific theories asย equivalent to ideas that lack scientific study.
In 2012, legislators in Tennessee โ the same state where the Scopes trial took place nearly a century ago โ approved aย law that obligated teachersย to present the โscientific strengths and scientific weaknesses of existing scientific theories.โ What constituted a scientific โstrengthโ or โweaknessโ was not defined.
Similar bills were introduced inย North Dakota in 2019ย andย Oklahoma in 2023. If the Oklahoma bill passes, teachers will be encouraged to explore scientific theories in class and to help students โanalyze certain scientific strengths and weaknesses.โ
And aย new law in West Virginiaย allows teachers to discuss or answer โquestions from students about scientific theories.โ The billโs author,ย state Sen. Amy Grady, said the law is about โencouraging students to think, encouraging students to ask questions and encouraging our teachers to be able to answer them.โ
Court Battles Ahead
In my view, legislation dealing with the teaching of scientific theories is being used to influence what is taught in public schools. The law is likely to face a legal challenge. More than 20 years ago, in Kitzmiller v. Dover, a federal court ruled that intelligent design was not science; it lacked empirical evidence and testable hypotheses. Teaching it would violate the First Amendmentโsย prohibition against state support of religion.
As an educator โ and as aย scholarย whoย studies the nature of scienceย โ I believe an understanding of scientific knowledge is critical; scientific theories are part of this knowledge.
Accepted scientific theories are the best explanations available so far for how the world works. They have been thoroughly tested and are supported by evidence, often pulled from different fields. For example, evidence supporting large-scale evolution comes fromย fossils, DNA analysis and comparing the anatomy of different organisms.
Updating Theories
Scientific theories can be revised. They can change, or even be discarded, but they are durable. The history of science isย full of storiesย about new evidence, reinterpretation of existing evidence and advances in technology spurring changes in the sciences. For instance, the discovery of theย microscope in the 16th centuryย literally changed how scientists saw the world.
Scientific theories have explanatory power about the natural world. The Earthโs gravity, for instance, can be explained through theย theory of general relativity. Theories have predictive power, too. They can be used to generate research ideas. Asย summarized by astrophysicist and authorย Neil deGrasse Tyson: โA well-constructed theory should explain some of what is not understood and, more importantly, predict previously unknown phenomena that can be tested. A successful theory is one where experiments consistently confirm its predictions.โ
Given these characteristics of scientific theories, the current crop of legislation governing how theories are introduced and taught in classrooms is concerning. Underpinning these laws is the assumption that accepted scientific theories are nothing more than conjecture.
Debating Facts
For example, aย 2023 billย from Montana prohibits science instruction on โsubject matter that is not scientific fact.โ The bill devalues scientific theories asย hunches or unproved assumptions. It undermines their inclusion, as established ideas, in the K-12 curriculum. Atomic theory may be a theory, but it is fundamental to peopleโs understanding of matter and is a foundation of all the physical sciences.
Legislation that invites classroom exploration, debate or analysis of theories may mask other intentions. The sponsor of Senate Bill 140 in Oklahoma, for example,ย said he hoped the lawย would โexpose the โtheoryโ aspect of evolution by allowing alternate views to be presented.โ
Laws like the one passed in West Virginia go a step further. They open the door to discussions about alternatives to scientific theories. This allows nonscientific notions to be introduced covertly. Writing for Scientific American, Amanda Townley, executive director of theย National Center for Science Education,ย criticized the West Virginia law. She expressed concern and said such laws open the public classroom door to false beliefs such as the Earth being flat or that crystals can heal.
Toward Scientific Literacy
In contrast to legislators who would allow any kind of theory to be taught in science class, experts such asย Fouad Abd-El-Khalick, a leading international science education researcher, advocate that students in K-12 beย taught about the characteristics of scientific theoriesย in developmentally appropriate ways.ย U.S. standards for teaching science, for instance, say that by the end of 12th grade, students should understand that a โscientific theory is a substantiated explanation of some aspect of the natural world, based on a body of facts that has been repeatedly confirmed through observation and experiment.โ
Students should be encouraged to think critically and ask questions โ like โWhat is the evidence that supports this theory?โ or โHow was this theory tested?โ โ with the caveat that any theories in question should have already attained the status of โscientific theoryโ before being admitted into the curriculum.
Education scholars sayย K-12 education must provide students a โfunctional level of scientific literacyโ that enables them to understand and make decisions about issues related to science in everyday life, from vaccines toย baking cakes.
Part of attaining this literacy is understanding and trusting knowledge produced by science, such as facts, laws โ and scientific theories.
Originally published by The Conversation, 08.21.2024, under the terms of a Creative Commons Attribution/No derivatives license.
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