A theory must have explanatory power, predictive ability, and be falsifiable. It should also be based on empirical evidence and be able to be tested and refined through scientific methods.
A theory must provide an explanation for an observation and be reinforced by observational data and experimentation.
1- Self-consistencyThere should be no contradictions between various parts of the theory.2- Consistency with experimental and observational evidenceSuccessful confrontation with valid data is fundamental.3- Testability/FalsifiabilityAn experiment can be devised to test the theory's predictions. A possible outcome of the test is failure.4- Consistency with other valid theoriesThe new theory must agree with pre-existing accepted other theories, or explain (in a satisfactory manner) why the latter should be modified or rejected.5- AdaptabilityThe theory's framework must be able to accommodate new data and be improved upon, if necessary.6- ParsimonyThere are no unnecessary assumption or superfluous hypothesis.
The theory about the first cause, known as the cosmological argument, suggests that something must have caused the existence of the universe. This "first cause" is often understood as a necessary being or God that initiated the chain of causation that led to the creation of the universe.
Personal opinions, beliefs, or anecdotes that are not supported by empirical evidence will not be considered valid within a scientific theory. Theories must be testable, falsifiable, and based on systematic observation and data analysis. Emotional reasoning or cultural bias should also not influence the development or acceptance of a scientific theory.
A theory is developed through a systematic process of collecting evidence, conducting experiments, and analyzing results to explain a phenomenon. It must be able to make predictions that can be tested and validated by other scientists. Over time, a theory gains more support and acceptance within the scientific community based on the strength of the evidence supporting it.
To be accurate, a theory must continue to explain what
To be accurate, a theory must continue to explain what
To be accurate, a theory must continue to explain what
The Hypothesis Must Be Supported In Order For It To Become A Theory
The Hypothesis Must Be Supported In Order For It To Become A Theory
A scientific theory must be based on many repeated correct experiments; also this theory must be related with other accepted theories.
A theory must provide an explanation for an observation and be reinforced by observational data and experimentation.
it must be testiable first because then it can become a theory.
A scientific theory must be testable, falsifiable, and have explanatory power in order to be accepted as the correct theory for a natural event. This means that the theory must be able to be tested through experiments or observations, potentially proven wrong if new evidence arises, and provide a comprehensive explanation for the phenomenon it describes.
when it is consistent with observation
your reason for choosing it
A theory