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Radioisotope thermoelectric generator
The Beta-M is a radioisotope thermoelectric generator (RTG) that was used in Soviet-era lighthouses and beacons. The Beta-M contains a core made up of
Beta-M
Statistical model for a binary dependent variable
m x m , i , {\displaystyle f(i)=\beta _{0}+\beta _{1}x_{1,i}+\cdots +\beta _{m}x_{m,i},} where β 0 , … , β m {\displaystyle \beta _{0},\ldots ,\beta _{m}}
Logistic_regression
Gives necessary and sufficient conditions for two braids to have equivalent closures
represented by elements β n , β m ′ {\displaystyle \beta _{n},\beta _{m}'} in the braid groups B n , B m {\displaystyle B_{n},B_{m}} , their closures are equivalent
Markov_theorem
Exceptionally large German siege artillery piece of World War I
the M-Gerät. Due to losses from faulty ammunition and Allied counter-battery artillery, a smaller-calibre (30.5 cm (12.0 in)) gun called the Beta-M-Gerät
Big_Bertha_(howitzer)
Number systems with a non-integer radix (base), such as base 2.5
+ β − m d − m . {\displaystyle {\begin{aligned}x&=\beta ^{n}d_{n}+\cdots +\beta ^{2}d_{2}+\beta d_{1}+d_{0}\\&\qquad +\beta ^{-1}d_{-1}+\beta ^{-2}d_{-2}+\cdots
Non-integer base of numeration
Non-integer_base_of_numeration
Statistics concept
⋯ + β m x i m + ε i ( i = 1 , 2 , … , n ) {\displaystyle y_{i}\,=\,\beta _{0}+\beta _{1}x_{i}+\beta _{2}x_{i}^{2}+\cdots +\beta _{m}x_{i}^{m}+\varepsilon
Polynomial_regression
Electrical generator that uses heat from radioactive decay
Arctic coast by the late 1980s. Many different types of RTGs (including Beta-M type) were built in the Soviet Union for a wide variety of purposes. The
Radioisotope thermoelectric generator
Radioisotope_thermoelectric_generator
Theorem in transcendental number theory
{\begin{aligned}\beta (m)=q_{m,1}\alpha (i_{1})+\cdots +q_{m,k}\alpha (i_{k}),&&q_{m,j}={\frac {c_{m,j}}{d_{m,j}}};\qquad c_{m,j},d_{m,j}\in \mathbb {Z}
Lindemann–Weierstrass_theorem
Special arrangement of permanent magnets
{\displaystyle 0-(\beta \cos \theta -M_{0}\ln r_{\mathrm {0} }\cos \theta -M_{0}\cos \theta )=M_{0}\cos \theta \implies \beta -M_{0}\ln r_{\mathrm {o}
Halbach_array
Tensor in general relativity
then K ~ β 1 ⋯ β m = u m K β 1 ⋯ β m {\displaystyle {\tilde {K}}_{\beta _{1}\cdots \beta _{m}}=u^{m}K_{\beta _{1}\cdots \beta _{m}}} is a conformal Killing
Killing_tensor
Theory used to determine the stresses and deformations in thin plates
_{-h}^{h}\sigma _{\alpha \beta }~dx_{3}\\M_{\alpha \beta ,\alpha \beta }+q&=0\quad \quad M_{\alpha \beta }:=\int _{-h}^{h}x_{3}~\sigma _{\alpha \beta }~dx_{3}\end{aligned}}}
Kirchhoff–Love_plate_theory
Class of statistical models
( μ m ) = η m = β m , 0 + X 1 β m , 1 + ⋯ + X p β m , p where μ m = P ( Y = m ∣ Y ∈ { 1 , m } ) . {\displaystyle g(\mu _{m})=\eta _{m}=\beta _{m,0}+X_{1}\beta
Generalized_linear_model
Type of radioactive decay
In nuclear physics, beta decay (β-decay) is a type of radioactive decay in which an atomic nucleus emits a beta particle (fast energetic electron or positron)
Beta_decay
Abstraction of linear independence of vectors
of flats of M {\displaystyle M} . If M {\displaystyle M} has no loops and coloops then β ( M ) = β ( M ∗ ) {\displaystyle \beta (M)=\beta (M^{*})} . The
Matroid
Model of electronic band structures of solids
energy of the m-th atomic level, and α m , l {\displaystyle \alpha _{m,l}} , β m {\displaystyle \beta _{m}} and γ m , l {\displaystyle \gamma _{m,l}} are the
Tight_binding
Ionizing radiation
A beta particle, also called beta ray or beta radiation (symbol β), is a high-energy, high-speed electron or positron emitted by the radioactive decay
Beta_particle
Diagram showing the singularities of a given control system's transfer function
= { β m ∣ m ∈ 1 , … M } {\displaystyle s=\{\beta _{m}\mid m\in 1,\ldots M\}} such that B ( s ) | s = β m = 0 {\displaystyle B(s)|_{s=\beta _{m}}=0} the
Pole–zero_plot
Expected change in price of a stock relative to the whole market
In finance, the beta (β or market beta or beta coefficient) is a statistic that measures the expected increase or decrease of an individual stock price
Beta_(finance)
Probability distribution
^{2}(2\beta -1)+\beta ^{2}(\beta +1)-2\alpha \beta (\beta +2)]}{\alpha \beta (\alpha +\beta +2)(\alpha +\beta +3)}}\\&={\frac {6[(\alpha -\beta )^{2}(\alpha
Beta_distribution
Science of characterizing uncertainties
{GP}}{\big (}\mathbf {h} ^{m}(\cdot )^{T}{\boldsymbol {\beta }}^{m},\sigma _{m}^{2}R^{m}(\cdot ,\cdot ){\big )}} where R m ( ( x , θ ) , ( x ′ , θ ′ )
Uncertainty_quantification
Regression for more than two discrete outcomes
i + ⋯ + β M , k x M , i , {\displaystyle f(k,i)=\beta _{0,k}+\beta _{1,k}x_{1,i}+\beta _{2,k}x_{2,i}+\cdots +\beta _{M,k}x_{M,i},} where β m , k {\displaystyle
Multinomial logistic regression
Multinomial_logistic_regression
Mathematical relation defining a sequence
α ± β i = M ( α M ± β M i ) {\displaystyle \lambda _{j},\lambda _{j+1}=\alpha \pm \beta i=M\left({\frac {\alpha }{M}}\pm {\frac {\beta }{M}}i\right)}
Linear recurrence with constant coefficients
Linear_recurrence_with_constant_coefficients
Statistical model
x_{nj}^{m}}=-{\frac {x_{nj}^{m}}{P_{ni}}}\int \beta ^{m}L_{ni}(\beta )L_{nj}(\beta )f(\beta )d\beta =-x_{nj}^{m}\int \beta ^{m}L_{nj}(\beta ){\frac {L_{ni}(\beta
Mixed_logit
Medication class with multiple uses
Beta blockers, also spelled β-blockers and also sometimes known as β-adrenergic receptor antagonists, are a class of medications predominantly used to
Beta_blocker
Energy of a moving physical body
relativity. If the particle has momentum p β = m g β α u α {\displaystyle p_{\beta }\,=\,m\,g_{\beta \alpha }\,u^{\alpha }} as it passes by an observer
Kinetic_energy
Mathematical function
In mathematics, the beta function, also called the Euler integral of the first kind, is a special function that is closely related to the gamma function
Beta_function
Class of enzymes
Beta-lactamases (β-lactamases) are enzymes (EC 3.5.2.6) produced by bacteria that provide multi-resistance to beta-lactam antibiotics such as penicillins
Beta-lactamase
Used to understand the Dirac equation
Hamiltonian operator H ^ 0 ≡ α ⋅ p + β m {\displaystyle {\hat {H}}_{0}\equiv {\boldsymbol {\alpha }}\cdot \mathbf {p} +\beta m} in biunitary fashion, in the form:
Foldy–Wouthuysen transformation
Foldy–Wouthuysen_transformation
Describes how neurons transmit electric signals
_{n}(V_{m})(1-n)-\beta _{n}(V_{m})n} d m d t = α m ( V m ) ( 1 − m ) − β m ( V m ) m {\displaystyle {\frac {dm}{dt}}=\alpha _{m}(V_{m})(1-m)-\beta _{m}(V_{m})m}
Hodgkin–Huxley_model
Stages in development and support of computer software
system). It typically consists of several stages, such as pre-alpha, alpha, beta, and release candidate, before the final version, or "gold", is released
Software_release_life_cycle
Theory used to calculate the deformations and stresses in plates
N α β , α = 0 M α β , β − Q α = 0 Q α , α + q = 0 {\displaystyle {\begin{aligned}&N_{\alpha \beta ,\alpha }=0\\&M_{\alpha \beta ,\beta }-Q_{\alpha }=0\\&Q_{\alpha
Reissner–Mindlin_plate_theory
Numerical eigenvalue calculation
_{1}&\beta _{2}&&&&0\\\beta _{2}&\alpha _{2}&\beta _{3}&&&\\&\beta _{3}&\alpha _{3}&\ddots &&\\&&\ddots &\ddots &\beta _{m-1}&\\&&&\beta _{m-1}&\alpha _{m-1}&\beta
Lanczos_algorithm
c ) ( tan β 1 − tan β 2 ) c o s β m {\displaystyle C_{L}=2(s/c)(\tan \beta _{1}-\tan \beta _{2})cos\beta _{m}} C d = ( s c ) ( Δ p 0 ρ W 1 2 / 2 )
Blade_solidity
Second brightest star in the southern constellation of Pictor
Beta Pictoris (abbreviated β Pictoris or β Pic) is the second brightest star in the constellation Pictor. It is located 63.4 light-years (19.4 pc) from
Beta_Pictoris
∑ m = 0 ∞ ∑ n = 0 ∞ ( α ) m + n ( β ) m ( β ′ ) n ( γ ) m + n z m w n m ! n ! / ; | z | < 1 ∧ | w | < 1 {\displaystyle F_{1}(\alpha ;\beta ,\beta ';\gamma
Horn_function
Probability distribution
noncentral beta distribution (Type I) is the distribution of the ratio X = χ m 2 ( λ ) χ m 2 ( λ ) + χ n 2 , {\displaystyle X={\frac {\chi _{m}^{2}(\lambda
Noncentral_beta_distribution
Notion in statistics
{\mathcal {I}}(\beta ,\theta )=\operatorname {diag} \left({\mathcal {I}}(\beta ),{\mathcal {I}}(\theta )\right)} where I ( β ) m , n = ∂ μ T ∂ β m Σ − 1 ∂ μ
Fisher_information
Honor society for the liberal arts and sciences in the United States
The Phi Beta Kappa Society (ΦΒΚ) is the oldest academic honor society in the United States. Founded in 1776 at the College of William & Mary in Virginia
Phi_Beta_Kappa
Mathematical function on ordinals
β m ( γ m ) ≥ φ β m + 1 ( γ m + 1 ) , {\displaystyle \varphi _{\beta _{m}}(\gamma _{m})\geq \varphi _{\beta _{m+1}}(\gamma _{m+1})\,,} and each γ m <
Veblen_function
The following schools have had chapters of Beta Beta Beta. "Tri-Beta Local". Archived from the original on April 15, 2001. Retrieved September 15, 2014
List of Beta Beta Beta chapters
List_of_Beta_Beta_Beta_chapters
Neural oscillation in the brain, 12.5–30 Hz
function. Beta waves can be split into three sections: Low Beta Waves (12.5–16 Hz, "Beta 1"); Beta Waves (16.5–20 Hz, "Beta 2"); and High Beta Waves (20
Beta_wave
Probability distribution
In probability and statistics, the generalized beta distribution is a continuous probability distribution with four shape parameters, including more than
Generalized_beta_distribution
Species of flowering plant
Beta vulgaris (beet) is a species of flowering plant in the subfamily Betoideae of the family Amaranthaceae. It is a perennial plant usually growing up
Beta_vulgaris
Polynomial sequence
(\alpha +\beta +n+1)}}\sum _{m=0}^{n}{n \choose m}{\frac {\Gamma (\alpha +\beta +n+m+1)}{\Gamma (\alpha +m+1)}}\left({\frac {z-1}{2}}\right)^{m}.} An equivalent
Jacobi_polynomials
Calculation for the size of a fatigue crack
2 ( m − 2 ) C ( π Δ σ β ) m ( a 0 ) 2 − m 2 . {\displaystyle N_{f}={\frac {2}{(m-2)C({\sqrt {\pi }}\Delta \sigma \beta )^{m}}}(a_{0})^{\frac {2-m}{2}}
Crack_growth_equation
Ratio of static enthalpy change within a turbomachine to that of the whole stage
(\tan {\beta _{3}}-\tan {\beta _{2}})} as tan β m {\displaystyle \tan {\beta _{m}}} giving R = ϕ tan β m . {\displaystyle R=\phi \tan {\beta _{m}}.} The
Degree_of_reaction
Type of statistical regression analysis
^ + β ^ M {\displaystyle {\hat {\alpha }}+{\hat {\beta }}M} and variance σ ^ 2 {\displaystyle {\hat {\sigma }}^{2}} : Y ^ ∼ N ( α ^ + β ^ M , σ ^ 2 )
Nonhomogeneous Gaussian regression
Nonhomogeneous_Gaussian_regression
Bayesian approach to multivariate linear regression
{T}}{\boldsymbol {\beta }}_{1}+\epsilon _{i,1}\\&\;\;\vdots \\y_{i,m}&=\mathbf {x} _{i}^{\mathsf {T}}{\boldsymbol {\beta }}_{m}+\epsilon _{i,m}\end{aligned}}}
Bayesian multivariate linear regression
Bayesian_multivariate_linear_regression
Aircraft flight measures
{Y_{\beta }}{mU}}+{\frac {N_{r}}{C}}\right){\frac {d\beta }{dt}}+\left({\frac {N_{\beta }}{C}}+{\frac {Y_{\beta }}{mU}}{\frac {N_{r}}{C}}\right)\beta =0}
Stability_derivatives
Matrices used for Lorentz group spinors
σ m α β ˙ and σ ¯ m α ˙ β . {\displaystyle \sigma ^{m}{}_{\alpha {\dot {\beta }}}\quad {\text{and}}\quad {\bar {\sigma }}^{m\,{\dot {\alpha }}\beta }
Infeld–Van der Waerden symbols
Infeld–Van_der_Waerden_symbols
Method for estimating the unknown parameters in a linear regression model
y − X β ^ = M y = M ( X β + ε ) = ( M X ) β + M ε = M ε . {\displaystyle {\hat {\varepsilon }}=y-{\hat {y}}=y-X{\hat {\beta }}=My=M(X\beta +\varepsilon
Ordinary_least_squares
Formalism of general relativity
(R_{ij}+KK_{ij}-2K_{ij}K_{j}^{\ell })-D_{i}D_{j}\alpha +(D_{j}\beta ^{m})K_{mi}+(D_{i}\beta ^{m})K_{mj}+\beta _{m}D_{m}K_{ij}\end{aligned}}} ADM formalism Canonical coordinates
BSSN_formalism
Shock wave that is inclined with respect to the incident upstream flow direction
2 {\displaystyle \tan \theta =2\cot \beta \ {\frac {M_{1}^{2}\sin ^{2}\!\beta -1}{M_{1}^{2}(\gamma +\cos 2\beta )+2}}} It is more intuitive to want to
Oblique_shock
Theory of computer sciences
α n ∣ β 1 ∣ … ∣ β m {\displaystyle A\rightarrow A\alpha _{1}\mid \ldots \mid A\alpha _{n}\mid \beta _{1}\mid \ldots \mid \beta _{m}} where: each α {\displaystyle
Left_recursion
)+\ln(n)}{1-\beta }}={\frac {\ln(1/\beta )}{1-\beta }}m+{\frac {1}{1-\beta }}\ln(n).\end{aligned}}} Now, as β → 1 {\displaystyle \beta \to 1} from below
Randomized weighted majority algorithm
Randomized_weighted_majority_algorithm
German siege artillery
guns destroyed by internal explosion in 1917, it was outfitted with two Beta-M-Gerät mortars, converted from the destroyed Gamma-Gerät guns. With the start
42_cm_Gamma_howitzer
Mathematical theorem
positive integer m {\displaystyle m} , the constants α = 2 m {\displaystyle \alpha =2m} , β = m − 1 {\displaystyle \beta =m-1} will work, for some positive
Kolmogorov_continuity_theorem
Formula for determining the mole or mass fraction of phases in a binary phase diagram
{\displaystyle w_{\rm {B}}m=m_{\rm {B}}=m_{\rm {B}}^{\alpha }+m_{\rm {B}}^{\beta }=w_{\rm {B}}^{\alpha }m^{\alpha }+w_{\rm {B}}^{\beta }\left(m-m^{\alpha }\right)}
Lever_rule
usual β-reduction, ( λ v . M ) N ⟶ β M [ v := N ] {\displaystyle (\lambda v.\ M)\;N\ \ \longrightarrow _{\beta }\ \ M[v:=N]} in the De Bruijn notation
De_Bruijn_notation
Frame field in general relativity
M C β ] M J {\displaystyle {\Omega _{\alpha \beta }}^{IJ}-{R_{\alpha \beta }}^{IJ}=\nabla _{[\alpha }{C_{\beta ]}}^{IJ}+{C_{[\alpha }}^{IM}{C_{\beta ]M}}^{J}}
Tetradic_Palatini_action
Statistical modeling method
{\displaystyle {\vec {\beta }}=\left[\beta _{0},\beta _{1},\ldots ,\beta _{m}\right]} , then the model's prediction would be y i ≈ β 0 + ∑ j = 1 m β j × x j i {\displaystyle
Linear_regression
Representation of the capital asset pricing model
at a given time: S M L : E ( R i ) = R f + β i [ E ( R M ) − R f ] {\displaystyle \mathrm {SML} :E(R_{i})=R_{f}+\beta _{i}[E(R_{M})-R_{f}]\,} where: E(Ri)
Security_market_line
free-space is β m = k n 1 sin θ m {\displaystyle \beta _{m}=kn_{1}\sin \theta _{m}} where n 1 {\displaystyle n_{1}} is the index of air (~1) and β m {\displaystyle
Prism_coupler
Formulation of classical mechanics
β 2 , … , β N {\displaystyle \beta _{1},\,\beta _{2},\dots ,\beta _{N}} , so Q m = β m {\displaystyle Q_{m}=\beta _{m}} . Setting the generating function
Hamilton–Jacobi_equation
)_{m}(\beta )_{m}}{(1-m)_{m-1}\times m!}}x^{m}{_{2}F_{1}}(\alpha +m,\beta +m;(1+m);x).} Obviously, if γ = − 2 {\displaystyle \gamma =-2} , then m = 3
Frobenius solution to the hypergeometric equation
Frobenius_solution_to_the_hypergeometric_equation
Theorem in statistics and econometrics
{\begin{aligned}M_{Z}y&=M_{Z}(X{\hat {\beta }}+Z{\hat {\delta }}+{\hat {e}})\\{\tilde {y}}&=M_{Z}X{\hat {\beta }}+M_{Z}Z{\hat {\delta }}+M_{Z}{\hat {e}}\\{\tilde {y}}&={\tilde
Frisch–Waugh–Lovell_theorem
Concept in differential equation mathematics
The Newmark-beta method is a method of numerical integration used to solve certain differential equations. It is widely used in numerical evaluation of
Newmark-beta_method
Triple star system in the constellation Centaurus
Beta Centauri is a triple star system in the southern constellation of Centaurus. It is officially called Hadar (/ˈheɪdɑːr/). The Bayer designation of
Beta_Centauri
Probability distribution
{\displaystyle \operatorname {E} [X^{m}]={\frac {1-\kappa ^{2}}{\prod _{n=0}^{m+1}[1-(2n-m-1)\kappa ]}}{\frac {m!}{\beta ^{m}}}} where f κ ( x ) {\displaystyle
Kaniadakis exponential distribution
Kaniadakis_exponential_distribution
Strain caused by an external load
q ( x ) = 0 ; M α β := ∫ − h h x 3 σ α β d x 3 {\displaystyle M_{\alpha \beta ,\alpha \beta }+q(x)=0~;~~M_{\alpha \beta }:=\int _{-h}^{h}x_{3}~\sigma
Bending
{\displaystyle {\frac {d^{m}}{dz^{m}}}\left(t^{\beta -1}E_{\alpha ,\beta }^{\gamma }(t^{\alpha }z)\right)=t^{\beta -m-1}E_{\alpha ,\beta -m}^{\gamma }(t^{\alpha
Prabhakar_function
Relativistic wave description of fermions
t − i α ^ ⋅ ∇ + β m ) ψ = 0 {\displaystyle \left(\,-i\,{\frac {\partial }{\partial t}}-i\,{\hat {\alpha }}\cdot \nabla +\beta \,m\,\right)\,\psi =0}
Majorana_equation
\alpha M_{k}-\beta M_{k+1}=\left\{{\begin{array}{cc}-ve,&if\;\alpha <0\\ve,&if\;\alpha >0\end{array}}\right.} for all β {\displaystyle \beta } . With
Transshipment_problem
Class of spinors constructed using Clifford algebras
m ) := β 0 ( ψ , Γ X 1 ⋯ Γ X m ϕ ) , for ψ , ϕ ∈ Λ ( V n ) , X 1 , … , X m ∈ V , {\displaystyle \beta _{m}(\psi ,\phi )(X_{1},\dots ,X_{m}):=\beta
Pure_spinor
Jewish community associated with modern-day Ethiopia
question marks, boxes, or other symbols instead of Ethiopic characters. The Beta Israel, or Ethiopian Jews, are a Jewish group originating in the Amhara and
Beta_Israel
Acceleration phenomenon of oft-reflected charged particles
energy gain per bounce depends on the mirror velocity squared, β m 2 {\displaystyle \beta _{m}^{2}} . The resulting energy spectrum anticipated from this physical
Fermi_acceleration
Super Jupiter orbiting Beta Pictoris
Beta Pictoris b (abbreviated as β Pic b) is an exoplanet orbiting the young debris disk, A-type main sequence star, Beta Pictoris located approximately
Beta_Pictoris_b
Matrices important in quantum mechanics and the study of spin
{\displaystyle 2\ M_{\alpha \beta }=\delta _{\alpha \beta }\ M_{\gamma \gamma }+\sum _{k}\sigma _{\alpha \beta }^{k}\ \sigma _{\gamma \delta }^{k}\ M_{\delta \gamma
Pauli_matrices
β ^ G M M = argmin m ( x , β ) ′ W m ( x , β ) {\displaystyle {\hat {\beta }}_{GMM}=\operatorname {argmin} \,m(x,\beta )'Wm(x,\beta )} , where m ( x ,
Method_of_simulated_moments
Collection of results for partial differential equations
;\Omega }^{(m)}=|u|_{k;\Omega }^{(m)}+[u]_{k,\alpha ;\Omega }^{(m)}=\sum _{|\beta |\leq k}\sup _{x\in \Omega }|d_{x}^{|\beta |+m}D^{\beta }u(x)|+\sup
Schauder_estimates
Protein-coding gene in the species Homo sapiens
polymerase beta, also known as POLB, is an enzyme present in eukaryotes. In humans, it is encoded by the POLB gene. In eukaryotic cells, DNA polymerase beta (POLB)
DNA_polymerase_beta
\delta _{n}={\frac {2^{\alpha +\beta +1}\Gamma (n+\alpha +1)\Gamma (n+\beta +1)}{n!(\alpha +\beta +2n+1)\Gamma (n+\alpha +\beta +1)}}} Debnath, L. "On Jacobi
Jacobi_transform
Discrete probability distribution
\beta _{2}={\frac {(\alpha +\beta )^{2}(1+\alpha +\beta )}{n\alpha \beta (\alpha +\beta +2)(\alpha +\beta +3)(\alpha +\beta +n)}}\left[(\alpha +\beta )(\alpha
Beta-binomial_distribution
beta as follows. β + = Cov ( r i , r m ∣ r m > u m ) Var ( r m ∣ r m > u m ) , {\displaystyle \beta ^{+}={\frac {\operatorname {Cov} (r_{i},r_{m}\mid
Upside_beta
Mammalian protein found in Homo sapiens
Thymosin beta-4 is a protein that in humans is encoded by the TMSB4X gene. Recommended INN (International Nonproprietary Name) for thymosin beta-4 is 'timbetasin'
Thymosin_beta-4
Mechanism of spontaneous phase separation
( β ) {\displaystyle {\frac {dA(\beta )}{dt}}=-{\frac {M}{N_{\nu }}}[f''+2\eta ^{2}Y+2Y\beta ^{2}]\beta ^{2}A(\beta )} This is an ordinary differential
Spinodal_decomposition
Generalization of derivative to fractals
(}y(t){\Big )}={\dfrac {\alpha \beta }{M(\alpha )}}\int _{0}^{t}s^{\beta -1}y(s)ds+{\dfrac {\beta (1-\alpha )t^{\beta -1}y(t)}{M(\alpha )}}} . Generalized Mittag-Leffler
Fractal_derivative
Sympathomimetic drug
of norfenefrine include hydroxyphenylethanolamine, nor-phenylephrine, and m-norsynephrine, among others. Brand names of norfenefrine include Novadral
Norfenefrine
Random temperature-influenced deviations of particles from their average state
f ( E ; β ) = β ( β E ) m − 1 Γ ( m ) e − β E {\displaystyle f(E;\beta )=\beta {\frac {(\beta E)^{m-1}}{\Gamma (m)}}e^{-\beta E}} will belong to the family
Thermal_fluctuations
_{i=1}^{m}{w_{i}^{d}}}}\,} Under the null hypotheses, this statistic has a Beta(m,m) distribution. Hopkins, Brian; Skellam, J.G. (1954). "A new method for
Hopkins_statistic
Group of peptides
Amyloid beta (Aβ, Abeta or beta-amyloid) denotes peptides of 36–43 amino acids that are the main component of the amyloid plaques found in the brains
Amyloid_beta
Framework in lambda calculus
{\displaystyle \Gamma \vdash M:T} and M → β M ′ {\displaystyle M\to _{\beta }M'} then Γ ⊢ M ′ : T {\displaystyle \Gamma \vdash M':T} ; the uniqueness of types:
Lambda_cube
State in supersymmetry
{Q}}_{{\dot {\beta }}B}\}&=2\sigma _{\alpha {\dot {\beta }}}^{m}P_{m}\delta _{B}^{A}\\\{Q_{\alpha }^{A},Q_{\beta }^{B}\}&=2\epsilon _{\alpha \beta }\epsilon
Bogomol'nyi–Prasad–Sommerfield state
Bogomol'nyi–Prasad–Sommerfield_state
Algorithm for solving the discrete logarithm problem
0\leq j<m} Therefore, we have: α x = β {\displaystyle \alpha ^{x}=\beta \,} α i m + j = β {\displaystyle \alpha ^{im+j}=\beta \,} α j = β ( α − m ) i {\displaystyle
Baby-step_giant-step
Continuous probability distribution
/ α 1 + κ m α Γ ( 1 2 κ − m 2 α ) Γ ( 1 2 κ + m 2 α ) Γ ( 1 + m α ) {\displaystyle \operatorname {E} [X^{m}]={\frac {|2\kappa \beta |^{-m/\alpha }}{1+\kappa
Kaniadakis Weibull distribution
Kaniadakis_Weibull_distribution
Italian car produced from 1972 to 1984
coupé (Beta Coupé), 2-door targa (Beta Spider), 3-door estate (Beta HPE); a mid-engined sports car was also sold under the Beta name, the Lancia Beta Montecarlo
Lancia_Beta
Genus of flowering plants in the amaranth family Amaranthaceae
Beta is a genus of flowering plants in the family Amaranthaceae. The best known member is the common beet, Beta vulgaris, but several other species are
Beta_(plant)
Thermodynamic extension of Debye–Hückel theory
− α m 1 / 2 − 2 β m {\displaystyle \ln {\gamma }=-\alpha m^{1/2}-2\beta m} 1 − φ = ( α / 3 ) m 1 / 2 + β m {\displaystyle 1-\varphi =(\alpha /3)m^{1/2}+\beta
Pitzer_equations
Topological invariants concerning BPS states
_{\beta \in H_{2}(M,\mathbb {Z} )}{\text{GW}}(g,\beta )q^{\beta }\lambda ^{2g-2}=\sum _{g=0}^{\infty }~\sum _{k=1}^{\infty }~\sum _{\beta \in H_{2}(M,\mathbb
Gopakumar–Vafa_invariant
calculus, a term is in beta normal form if no beta reduction is possible. A term is in beta-eta normal form if neither a beta reduction nor an eta reduction
Beta_normal_form
BETA M
BETA M
Female
English
Short form of English Beatrix, BEA means "voyager (through life)."Â
Female
English
English name derived from the second letter of the Greek alphabet, beta, related to Hebrew bet, BETA means "house."Â
Female
Spanish
 Short form of Spanish Aleta, LETA means "winged." Compare with another form of Leta.
Girl/Female
Indian, Marathi
Our Heart Beat
Female
German
Short form of German Margarete, META means "pearl."
Biblical
Beth (Hebrew)|house of the sun
Boy/Male
Hindu, Indian, Marathi
Rhythmic; A Single Beat; Musical Harmony
Female
English
Czech and Polish form of German Bertha, BERTA means "bright."
Female
Hebrew
(× Ö¶×˜Ö·×¢) Hebrew unisex name NETA means meaning "plant, shrub."
Female
Italian
 Variant spelling of Italian Zita, ZETA means "little girl." Compare with another form of Zeta.
Boy/Male
Scottish Shakespearean
Son of Beth.
Girl/Female
Greek Hebrew English
From the Hebrew Elisheba, meaning either oath of God, or God is satisfaction. Famous bearer: Old...
Female
Polish
Polish name derived from Latin beatus, BEATA means "blessed."Â
Male
Hebrew
(בֶּלַע) Hebrew name BELA means "destruction." In the bible, this is the name of several characters, including a king of Edom.
Female
Hungarian
Hungarian form of Greek Elisabet, ERZSÉBET means "God is my oath."
Female
English
Short form of English Elizabeth, BET means "God is my oath."Â
Female
Native American
 Native American Blackfoot name PETA means "golden eagle." Compare with another form of Peta.
Female
English
Short form of English Elizabeth, BETH means "God is my oath."Â
Female
Polish
Polish form of Greek Elisabet, ELŻBIETA means "God is my oath."
Boy/Male
Bengali, Hindu, Indian, Sanskrit
Heart Beat
BETA M
BETA M
Boy/Male
Australian, Biblical, British, Christian, Danish, Dutch, English, French, German, Hawaiian, Hebrew
Weeps or Cries; The Persecuted; The Afflicted; Oppressed
Girl/Female
Arabic
Intelligent; Kind
Girl/Female
Arabic
Precious Stones
Girl/Female
Indian
Beautiful, Countenance, Comely, Prettiness, Grace, Beauty
Girl/Female
Arabic, Muslim
Genius
Boy/Male
Hindu
Name of a sage
Boy/Male
Tamil
Varahamihir | வராஹமிஹிர
An ancient astronomer
Girl/Female
Australian, Greek, Latin
Lover of Paris; Myth Name of the Mountain Nymph
Boy/Male
English
Ash tree.
Boy/Male
Indian
Servant of God
BETA M
BETA M
BETA M
BETA M
BETA M
n.
The common beet (Beta vulgaris).
v. t.
To give the signal for, by beat of drum; to sound by beat of drum; as, to beat an alarm, a charge, a parley, a retreat; to beat the general, the reveille, the tattoo. See Alarm, Charge, Parley, etc.
n.
The rise or fall of the hand or foot, marking the divisions of time; a division of the measure so marked. In the rhythm of music the beat is the unit.
v. i.
To make a sound when struck; as, the drums beat.
v. t.
To beat severely.
n.
A recurring stroke; a throb; a pulsation; as, a beat of the heart; the beat of the pulse.
imp. & p. p.
of Bet
v. t.
To beat with a mall; to beat with something heavy; to bruise; to maul.
v. i.
A cheat or swindler of the lowest grade; -- often emphasized by dead; as, a dead beat.
v. t.
To beat thoroughly or severely.
v. t.
To strike repeatedly; to lay repeated blows upon; as, to beat one's breast; to beat iron so as to shape it; to beat grain, in order to force out the seeds; to beat eggs and sugar; to beat a drum.
v. i.
To make a succession of strokes on a drum; as, the drummers beat to call soldiers to their quarters.
imp.
of Beat
p. p.
of Beat
v. i.
A round or course which is frequently gone over; as, a watchman's beat.
n.
A sudden swelling or reenforcement of a sound, recurring at regular intervals, and produced by the interference of sound waves of slightly different periods of vibrations; applied also, by analogy, to other kinds of wave motions; the pulsation or throbbing produced by the vibrating together of two tones not quite in unison. See Beat, v. i., 8.
v. t.
That on which bets are laid; the subject of a bet.