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Fundamental relation in fuzzy hyperrings
2015 4th Iranian Joint Congress on Fuzzy and Intelligent Systems (CFIS), 2015In this paper we introduce and analyze the fundamental relation of fuzzy hyperring. Also we introduce the notion of a fuzzy complete part of a fuzzy hyperring and its basic properties. Finally relationship between the fundamental relation and fuzzy complete parts of a fuzzy hyperring analyzed.
T. Nozari, N. Fahimi
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Fundamental relation on fuzzy hypermodules
Soft Computing, 2019zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Bijan Davvaz, Narjes Firouzkouhi
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Fundamental Critical Relations
Phase Transitions, 2003We consider systems which exhibit typical critical dependence of the specific heat: Δc (T c - T) - γ (T T c ) where y, y' are critical exponents (y = a for Δc = Δc p , N , γ = α for Δc = Δc V , N ), as well as, the case when Δc [ln ‖T c - T ‖] α (a = 1/3), uniaxial ferroelectrics; a = 1, liquid He 4 ).
M. Matlak, B. Grabiec
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Strongly Regular Relations Derived from Fundamental Relation
Journal of Algebraic Hyperstructures and Logical Algebras, 2023We introduce a new regular relation δ on a given group G and show that δ is a congurence relation on G, with respect to module the commutator subgroup of G. Then we show that the effect of this relation on the fundamental relation β is equal to the fundamental relation γ, and we conclude that, if ρ is an arbitrary strongly regular relation on the ...
B. Afshar, R. Ameri
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2015
Recall from Chap. 1 that one of the best-known equations in science is F = ma, which is called Newton’s second law of motion. This equation asserts that in an inertial frame of reference, the time rate of change of the linear momentum m v for a mass particle m must balance the forces F that are applied to the particle.
Jay D. Humphrey, Sherry L. O’Rourke
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Recall from Chap. 1 that one of the best-known equations in science is F = ma, which is called Newton’s second law of motion. This equation asserts that in an inertial frame of reference, the time rate of change of the linear momentum m v for a mass particle m must balance the forces F that are applied to the particle.
Jay D. Humphrey, Sherry L. O’Rourke
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Fundamentals and Related Literature
2020In this chapter, we will introduce some fundamental concepts serving as the building blocks of our research work, which include the state estimation, bad data detection, as well as FmDI attacks against state estimation. In addition, the state-of-the-art literature reviews on existing intrusion detection systems (IDSs), FDI attacks detection, and ...
Beibei Li, Rongxing Lu, Gaoxi Xiao
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FUNDAMENTAL RELATIONS IN SEISMOMETRY
GEOPHYSICS, 1937The equations for dynamical equilibrium of a geophone are derived by means of the Lagrange method and applied to the particular cases of a moving armature geophone, moving conductor geophone, and electrostatic geophone. The galvanometer for seismic recording is usually of the moving coil type and its equations are similar to those of a moving ...
S. A. Scherbatskoy, J. Neufeld
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