An idea based on many detailed observations is an empirical theory. This type of theory is grounded in data gathered from systematic and careful observations of the natural world. The strength of an empirical theory lies in its ability to make predictions and be tested through further experimentation.
Many, many, many. Just a few include: Information about planets around other stars. Detailed observations of the Shoemaker-Levi comet crash into Jupiter, giving information about comets and Jupiter. Detailed distances to far away galaxies, allowing refinement of the speed that the universe expands, leading to the discovery of dark energy. Detailed observations of gravitational lensing, leading to dark matter. Discovery that ancient galaxies are different and more irregularly shaped than current galaxies.
Johannes Kepler discovered that planets move in elliptical orbits by analyzing detailed astronomical data compiled by Tycho Brahe. Kepler's observations and calculations led to his discovery of the Three Laws of Planetary Motion, which revolutionized our understanding of celestial mechanics.
In astronomy, a hypothesis is a proposed explanation for a phenomenon that can be tested through observation or experimentation. It is a tentative idea or prediction that can be supported or refuted based on evidence. Hypotheses in astronomy often lead to the development of theories that help explain the behavior of celestial objects and phenomena.
The idea that planets orbited the Sun had been thought of many times before, but it was not until the 17th century that this idea was actually supported by evidence from the first telescopic observations of Galileo Galilei.
There are many websites which provides detailed information about Sunita Williams. These websites include "ASME", the official "NASA" site and "Wikipedia".
An explanation of things or events based on many observations is a theory.
Darwin's Theory of Evolution is solidly based on detailed observation of many different species, and on logical analysis of those observations, hence, it is scientific.
A "Theory".
a theory
An explanation of things or events based on many observations is a theory.
An inference is a logical conclusion based on observations. A generalization is a logical conclusion based on many observations and data. The difference between the two is that inferences deal with specifics pertaining to the experiment being worked on, while generalizations are more "general" and apply more to the idea than the specific experiment.
theory
scientific theory
scientific theory
explanation of a natural phenomenon based on many observations and investigations over time
A brief statement summarizing many observations of a physical phenomenon is called a scientific theory. It is a well-established explanation for a wide range of observations based on evidence, experimentation, and analysis.
i would assume it is known as a solution