Explanations must be Consistent.
The explanation for one set of phenomena cannot contradict the explanation for other sets of phenomena.
If explanations are inconsistent, they must be rectified or abandoned.
Explanations must be Testable.
Explanations must be examined in
laboratories, in nature, in the field or through the study of past events and
must be capable of shown to be incorrect. If they are incorrect they must
be changed or abandoned.
Preferred Explanations should be Elegant (Simple).
Explanations that require the invention of the fewest "missing pieces" have the greatest reliability. Explanations cannot include pieces that are either inconsistent
with what is already known or that are untestable.
Facts.
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All the empirical evidence available.
historical and current scientific knowledge.
The scientific method.
how are scientific laws formed
Facts.
emperical evidence
Answer it for me.
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A theory
explanations
some scientific reasearch investigates phenomena that are hard to explain
THERE are none, it is just music from the feet:)
Strength and usefulness of claims are evaluated through scientific argumentation.
A visual or mathematical representation used to develop scientific explanations is called a model. A model can be a diagram, graph, equation, or any other representation that helps scientists understand and explain a scientific phenomenon or process. Models are used to simplify complex concepts and aid in the development of theories and predictions.
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