Fu Yuhua (CNOOC Research Institute, E-mail:email@example.com) Abstract: One of the reasons for 1932 Nobel Prize for physics is “for the creation of quantum mechanics”. As well-known, the most famous contribution of Heisenberg is uncertainty principle, therefore one of the most importment reasons for Heisenberg was awarded the Nobel Prize is the creation of uncertainty principle. While, this paper points out that the original uncertainty principle is improper. Considering all the possible situations (including the case that people can create laws), the author presents "certaintyuncertainty principles" with general form and variable dimension fractal form. According to the classification of Neutrosophy, "certainty-uncertainty principles" can be divided into three principles in different conditions: "certainty principle", namely a particle’s position and momentum can be known simultaneously; "uncertainty principle", namely a particle’s position and momentum cannot be known simultaneously; and neutral (fuzzy) "indeterminacy principle", namely whether or not a particle’s position and momentum can be known simultaneously is undetermined. The special cases of "certainty-uncertainty principles" include the original uncertainty principle and Ozawa inequality. In addition, in accordance with the original uncertainty principle, discussing high-speed particle’s speed and track with Newton mechanics is unreasonable; but according to "certainty-uncertainty principles", Newton mechanics can be used to discuss the problem of gravitational defection of a photon orbit around the Sun (it gives the same result of deflection angle as given by general relativity). Finally, for the reason that in physics the principles, laws and the like that are regardless of the principle (law) of conservation of energy may be invalid; therefore "certainty-uncertainty principles" should be restricted (or constrained) by principle (law) of conservation of energy, and thus it can satisfy the principle (law) of conservation of energy.