College Physics
1st Edition
ISBN: 9781938168000
Author: Paul Peter Urone, Roger Hinrichs
Publisher: OpenStax College
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Chapter 1, Problem 1CQ
Models are particularly useful in relativity and
Expert Solution & Answer
To determine
What is a model?
Answer to Problem 1CQ
A physical model consists of a construction, representation or approximation of the behavior of a physical phenomenon by means of mathematical tools, computational simulations or hypotheses verifiable by scientific experiments.
Explanation of Solution
Introduction:
Most of the natural phenomena are complex. So developing a theory that explains accurately and has the ability to predict new unknown phenomena is not a simple task.
The physical models are necessary when the phenomenon to be studied escapes from the scale of human perception or from an adequate instrumentation to reproduce the phenomenon in its entirety. So what is sought is to understand the phenomenon by means of hypotheses and, or mathematical-computational constructions of the behavior of nature in a partial way, that is, by dividing the problem into smaller problems that are achievable or reproducible through scientific experimentation.
For example, to explain the nature of light, Newton proposed the Corpuscular Model, but it cannot explain all the phenomena related to the interference of light. Years later, Huygens proposed a model from the wave point of view that successfully explained the interference of light.
Conclusion:
A physical model consists of a construction, representation or approximation of the behavior of a physical phenomenon by means of mathematical tools, computational simulations or hypotheses verifiable by scientific experiments.
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Models are particularly useful in relativity and quantum mechanics, where conditions are outside
those normally encountered by humans. What is a model?
Models are particularly useful in relativity and quantum mechanics, where conditions are outside those normally encounteredby humans. What is a model?
Scientists are conducting an experiment to determine if their hypothesis that a certain constant in the universe is 1.65. the uncertainties in the experiment result in a relative uncertainty of no more than 2%. After several experimental trials, the scientists obtained an average value of 1.7 for the constant. What can be said about the scientists hypothesis? Hint calculate the percent error and compare it to the relative uncertainty.
Chapter 1 Solutions
College Physics
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