1 Certain
numerical abilities appear to be relatively ubiquitous i
2 Where do human
numerical abilities come from?
3 critical insights into the innate nature of
numerical abilities.
4 Using a two-dimensional
numerical air plasma model, it is shown that the phase s
5 CD8(+) T cells exhibit different dynamics of
numerical alteration and cytotoxic activity in HIV-infec
6 strates, using experimental, theoretical and
numerical analyses.
7 Guided by
numerical analysis and physical prototypes, we systemati
8 A comprehensive
numerical analysis for the prisoner's dilemma and for th
9 Our
numerical analysis indicates significant miniband engine
10 tion and modelling as well as analytical and
numerical analysis points of view, and the performance v
11 Here, we use theory, experiments, and
numerical analysis to demonstrate an inherent trade-off
12 A
numerical analysis was conducted to study a room tempera
13 On the basis of our recent
numerical analysis, a pH change initiated at the interfa
14 rigorous model for conditioning inspired by
numerical analysis, and also a biologically inspired def
15 ectroomostic flow hysteresis as predicted by
numerical analysis.
16 This work presents a combined
numerical and experimental study of electrokinetic ferro
17 eous lymphocyte activation, primarily due to
numerical and functional deficiencies of Treg cells in t
18 gnitudes serves as a foundation not only for
numerical and mathematical cognition, but also for decis
19 The
numerical and modeling approach presented here to estima
20 production number R 0 is calculated, and its
numerical and sensitivity analysis has been performed to
21 We compare these FQH phases with
numerical and theoretical models while simultaneously co
22 All
numerical and theoretical results are consistent with em
23 Here we discuss the experimental,
numerical,
and biological parameters that may be respons
24 We use mathematical,
numerical,
and empirical approaches to show that synchro
25 To demonstrate the concept, a 0.5
numerical aperture (NA) confocal fluorescence microscope
26 Conversely, injecting light over the full
numerical aperture of the fiber results in light emissio
27 collimation and collection by increasing the
numerical aperture with a plano-convex hyper-hemispheric
28 to obtain due to steric constraints at high
numerical aperture.
29 t permits the use of a room-temperature high-
numerical-
aperture objective lens to image frozen sample
30 ting position detection methods require high-
numerical-
aperture objective lenses, which are bulky, ex
31 Here we propose a novel
numerical approach to compute the whole-embryo dynamics
32 The study stands out by applying the same
numerical approach to extract the apparent moment distri
33 tion have, to date, required an approximate,
numerical approach.
34 t proteins and a multiscale experimental and
numerical approach.
35 The model utilizes an analytical (non-
numerical)
approach and allows the calculation of the ki
36 Current
numerical approaches then primarily emphasise the import
37 at is known about the development of spatial-
numerical associations in infancy.
38 rent combinations of binary, categorical, or
numerical attributes and could be easily extended to the
39 Numerical biases are uniquely enhanced in humans compare
40 leeding stratified by trial, and developed a
numerical bleeding risk score.
41 In the
numerical calculation, to improve the convergence rate,
42 Combining computer simulations in APs with
numerical calculations based on dynamical system theory,
43 Numerical calculations incorporating basic fracture mech
44 , in very good agreement with the outcome of
numerical calculations.
45 nts find changes in extent less salient than
numerical changes.
46 opt this pathway to propagate structural and
numerical chromosomal instabilities.
47 Experimental results were simulated by the
numerical code HP1 (Hydrus-PhreeqC) with the DLVO theory
48 ties can furnish a more expansive account of
numerical cognition that remedies these shortcomings.
49 This ubiquity of
numerical competence suggests that representations that
50 y to understanding how circuits with reduced
numerical complexity control wide ranges of behaviors.
51 y convolving its encrypted hologram (through
numerical computation) with the encrypted hologram of a
52 sponding on the basis of numerosity when non-
numerical confounds are controlled.
53 r ranking omics datasets that fully uses the
numerical content of the dataset to determine relevance
54 geometric construction of bifurcation sets,
numerical continuation, and random sampling of parameter
55 The plate model was transferred into a
numerical control machine for manufacturing the personal
56 Although there was significant
numerical correlation between values obtained by both me
57 r performing data-parallel analysis on large
numerical datasets.
58 ur approach with an analytical derivation, a
numerical demonstration, and an experimental reconstruct
59 t the molecular level, but did not alter the
numerical density of surfactant positive cells in lung t
60 Inputs for the pp-LFERs are a set of
numerical descriptors computed from molecular structure
61 cles is crucial because the experimental and
numerical determination of forces between such colloidal
62 cussed in light of the integrative theory of
numerical development along with implications for unders
63 am, which corresponds to a regime of maximum
numerical difficulty.
64 We argue that parallels between infants'
numerical discrimination in the visual and auditory moda
65 ber in the right IPS was comparable to their
numerical discrimination sensitivity observed behavioral
66 Although previous research shows evidence of
numerical distance effects in the intraparietal sulcus o
67 Numerical ecology analyses and a machine learning proced
68 nd nanofabricated structures are assisted by
numerical electromagnetic modeling, which supplies predi
69 ely studied using lattice models and theory,
numerical estimates for real protein structures are curr
70 A capacity for nonverbal
numerical estimation is widespread among humans and anim
71 mechanistic insight and effectively conduct
numerical evaluations is critically hindered when dealin
72 Here, we present analytical and
numerical evidence for the existence of an inverse energ
73 We provide theoretical and
numerical evidence for the intrinsic instability in the
74 The
numerical evidence for the monopole-like fields around h
75 Numerical examples demonstrate that a multi-segmented op
76 esent results of the first three-dimensional
numerical experiments of a water-rich planet orbiting a
77 omerate effective density); and (iii) robust
numerical fate and transport modeling for accurate deter
78 he vectors basically consist of some typical
numerical features for certain biological problems.
79 has revealed that the temporal, spatial, and
numerical features of a stimulus can interact with one a
80 The authors rightly point out that non-
numerical features of stimuli influence this ability.
81 o capture underlying biological phenomena in
numerical form.
82 This not only enables efficient
numerical implementation, but provides a natural descrip
83 ted with either statistically significant or
numerical improvements in some PROs, QILD, and QLF, whil
84 humans universally and spontaneously extract
numerical information, and that human nonverbal numerica
85 Numerical integration of these equations for prescribed
86 etic multi-core particles were determined by
numerical inversion of small angle scattering and isothe
87 Numerical investigations of Beynon Gabor zone plate conf
88 Here, we report results of systematic
numerical investigations of the operational characterist
89 We use a
numerical landscape evolution model to demonstrate that
90 velopments and empirical studies have linked
numerical magnitude evaluation to a wide variety of core
91 oxidation at an electrode provided a direct
numerical measure of LE activity.
92 More robust incorporation of
numerical metastatic LN burden may augment staging and b
93 We investigated the independent impact of
numerical metastatic LN burden on survival.
94 Here we present a validated
numerical method for estimating diffusion, binding/unbin
95 We solve this inverse problem by providing a
numerical method for setting up a discretized inverse pr
96 A
numerical method of solving for the elastic wave eigenmo
97 The
numerical method presented in this study provides an alt
98 Here we present an efficient
numerical method to fit such stochastic dynamic models t
99 genous concentration to be estimated using a
numerical method.
100 Analytical and
numerical methods are exploited to investigate the optic
101 By combining the latest
numerical methods in exhaustive simulations, we uncover
102 Doing so, and using
numerical methods to assess the accuracy of the experime
103 is study has developed a thermally activated
numerical micromagnetic model that can quantitatively de
104 Our observations are explained with a
numerical model based on charge transport of photoexcite
105 current-distance behavior, we provide a new
numerical model based on finite element modeling.
106 Here we use a
numerical model calibrated with observations to show tha
107 The
numerical model effectively resolved the correlation bet
108 A
numerical model for CTSDs is developed which indicates t
109 We build a comprehensive
numerical model for the evolution of nucleobases in warm
110 The
numerical model includes this additional mechanism, with
111 TTF outcomes are introduced as an input in a
numerical model of Hall devices to verify the probe magn
112 ns computed according to a recently proposed
numerical model of shear-mediated platelet activation.
113 tally known values and with the results of a
numerical model of the system, significantly improving t
114 We implement a
numerical model of two-phase water and gas flow in a sha
115 For the fiber vibration sensor, the proposed
numerical model shows that the sensor sensitivity depend
116 Stringent
numerical model shows that these observations resemble t
117 We introduced a
numerical model simulating the whole ecosystem of firms
118 Numerical model simulations suggest that enhanced weathe
119 Here, using observations and
numerical model simulations, we show that the occurrence
120 Here, using a
numerical model that simulates both ice and sediment dyn
121 Here we use a simple three-dimensional
numerical model to quantify the effects of back-arc temp
122 In this study, a
numerical model was developed to investigate the effect
123 Data were used to calibrate a
numerical model whereby FIB are delivered to a beach aqu
124 ve and producer cells were simulated using a
numerical model, demonstrating a finely balanced express
125 Here we use a newly developed
numerical model, which fully couples vegetation and sedi
126 tions by an analytic, a semi-empirical and a
numerical model.
127 he experiments are found in agreement with a
numerical model.Quantum dots in a nanowire are one possi
128 rmions in a chiral liquid crystal and, using
numerical modeling and polarized video microscopy, demon
129 This study developed field-scale
numerical modeling approaches to represent the hydrochem
130 A three-dimensional finite element
numerical modeling for the scanning microwave microscopy
131 A simplified two-dimensional
numerical modeling shows that the elastic strain energy
132 monstrated by both experimental analysis and
numerical modeling that these newly synthesized doped CQ
133 ed surface grain size, as also shown through
numerical modeling.
134 mixed layer (1-5 kt yr(-1)), as indicated by
numerical modeling.
135 These findings are consistent with
numerical modelling based on the minimization of Landau-
136 focal and electron microscopy, combined with
numerical modelling of capsid diffusion to analyse the m
137 Paired osmium isotope data and
numerical modelling results suggest that weathering rate
138 roscopy and light spectroscopy combined with
numerical modelling.
139 d via the analysis of observational data and
numerical modelling.
140 loited in the future to predict viscosity in
numerical models by piggybacking on schemes that track t
141 Our mathematical and
numerical models can be used to predict long-term effect
142 New 3D spherical
numerical models embedded with the latest geological pal
143 Although a large number of analytical and
numerical models have been developed to extract binding
144 Herein we describe experimental results and
numerical models in support of photoacoustic coupling as
145 Previous geologic evidence and
numerical models indicate that the ice sheet covered muc
146 ine invertebrate communities to parameterise
numerical models of sediment bioturbation - a key mediat
147 Numerical models of the Antarctic Ice Sheet that incorpo
148 Numerical models predict that increased organic carbon b
149 and oceanographic observations coupled with
numerical models show that warm Circumpolar Deep Water (
150 thinned at an accelerating rate, and several
numerical models suggest that unstable and irreversible
151 Here we use three-dimensional
numerical models to evaluate the effects of crustal rheo
152 scopicity of inorganic sea salt particles in
numerical models.
153 as seen through conductance measurements and
numerical models.
154 ics functions are implemented to easily plot
numerical or categorical data associated with the region
155 ipants were allocated to treatment number in
numerical order.
156 lso show that homophily will persist even if
numerical parity between genders is reached, highlightin
157 erical information, and that human nonverbal
numerical perception is enhanced by symbolic numeracy.
158 opulations of Drosophila melanogaster causes
numerical population suppression, with the magnitude of
159 ance of realistic land surface conditions on
numerical prediction of initiation, movement and timing
160 m-wise parallel gratings, which confirm this
numerical prediction, while showing near-plastron veloci
161 In vitro data were compared with
numerical predictions computed according to a recently p
162 the spatial Fourier domain are compared with
numerical predictions to illustrate the accuracy of the
163 n age-specific cancer incidence data using a
numerical profile-likelihood approach.
164 and represent numerosities, and not just non-
numerical quantitative features such as item size, densi
165 e hypothesis that the evaluation of relative
numerical quantities is subserved by lower-order brain s
166 n infants and other species can discriminate
numerical quantity.
167 th LBP intensity less than 40 on an 11-point
numerical rating scale (0 [no pain] to 100 [maximum pain
168 n pruritus scores measured using the 0 to 10
numerical rating scale (NRS), primary biliary cholangiti
169 RCTs; mean difference [MD], -0.96 point on a
numerical rating scale [95% CI, -1.64 to -0.34 point]; s
170 ge pain intensity (PI) assessed on a 0 to 10
numerical rating scale at 10, 20, and 30 min postadminis
171 outcomes were pain during walking (11-point
numerical rating scale) and physical function (Western O
172 question about current pain intensity [0-10
numerical rating scale]).
173 order, neuroticism, schizophrenia and verbal-
numerical reasoning (absolute rg effect sizes between 0.
174 757 [cases, 34486; controls, 45271]); verbal-
numerical reasoning (n = 36035) and reaction time (n = 1
175 ied between trail-making measures and verbal-
numerical reasoning (rg>0.6), general cognitive function
176 z score, -4.43; P = 9.42 x 10-6), and verbal-
numerical reasoning (z score, -5.43; P = 5.64 x 10-8).
177 loci shared between schizophrenia and verbal-
numerical reasoning, 6 loci shared between schizophrenia
178 ognitive domains of reaction time and verbal-
numerical reasoning, as well as general cognitive functi
179 tal continuity in the neural code underlying
numerical representation and demonstrates that children'
180 hree functional modules: 1) visualization of
numerical representation of RNA secondary structure; 2)
181 harper than in the left IPS, indicating that
numerical representations are more precise and mature mo
182 itself presupposes that infant learners have
numerical representations.
183 The
numerical result for the dependence of hollow hexagon co
184 Our
numerical results are in agreement with published experi
185 tion approach, we derive both analytical and
numerical results for the population of virtual photons
186 The
numerical results indicate that TCs will become stronger
187 Our theoretical and
numerical results indicate the appearance of bright, dar
188 Numerical results showed that the new method can control
189 ate that they are in good agreement with the
numerical results.
190 v-chain approach is presented to explain the
numerical results.
191 Numerical runs with and without the feedback (referred t
192 processing power makes simulations of large
numerical scale possible.
193 Backed by the
numerical scattering simulation and optimization, here,
194 We introduce a
numerical scheme to evolve functional elastic materials
195 Furthermore, global
numerical simulation analysis predicted that MYO1C(35) p
196 Through
numerical simulation and biological experiments, we demo
197 We confirmed the oxygen gradient by
numerical simulation and imaging-based oxygen sensor mea
198 Experimental observations and
numerical simulation are in good agreement.
199 ixed flames has been analysed using a Direct
Numerical Simulation database representing the corrugate
200 Apart from experimental evidence, a
numerical simulation is developed that considers an idea
201 tron microscopy (FIB-TEM) and validated by a
numerical simulation model.
202 ons drawn from a thoroughly validated direct
numerical simulation of the canonical spatially developi
203 A
numerical simulation of this behavior as a function of s
204 Analytical modeling and
numerical simulation provide a plausible physical explan
205 Paired experimental and
numerical simulation results are used to delineate the p
206 The
numerical simulation results confirmed the weakening of
207 Numerical simulation revealed that calibration error is
208 Furthermore, the
numerical simulation reveals that the dimer's dynamics i
209 The
numerical simulation shows that the proposed elementary
210 We additionally develop a
numerical simulation suite for rapid quantitative optimi
211 ed by the iso-frequency contour analysis and
numerical simulation to describe the optical beam propag
212 The results agree well with the
numerical simulation using CST's Microwave Studio(R).
213 Numerical simulation with the full linearized Hamiltonia
214 3D printing, experimental tests,
numerical simulation, and analytical modeling are implem
215 Using analytical considerations and
numerical simulation, we show that these transitions ori
216 omographic reconstruction techniques through
numerical simulations and by experimentally reconstructi
217 ag-shaped pattern is successfully modeled by
numerical simulations and has been monitored through dif
218 Here we use
numerical simulations and scanning tunnelling microscopy
219 Using extensive
numerical simulations and theoretical analyses, we find
220 We compare our predictions with
numerical simulations and with experimental observations
221 The theory is demonstrated by
numerical simulations and, more importantly, validated q
222 overlap of diffusion layers occurs and where
numerical simulations based on a 1D diffusion model are
223 tion of the Asian and Australian monsoons by
numerical simulations based on land-sea distributions an
224 We compare our experimental findings with
numerical simulations based on spin reorientation models
225 As confirmed by
numerical simulations based on the Boltzmann equation, t
226 Numerical simulations based on the vectorial nonlinear S
227 The
numerical simulations capture this nonintuitive behavior
228 Our
numerical simulations demonstrate that loss of contact i
229 We verify our results by conducting
numerical simulations for the elastodynamic response and
230 lectrograms, the authors conducted realistic
numerical simulations of AF drivers in a 2-dimensional m
231 We report
numerical simulations of early black hole formation star
232 We develop
numerical simulations of Joule heating-enhanced diffusio
233 We give examples using
numerical simulations of models for information spreadin
234 finite element model of brain current flow,
numerical simulations of neuronal activity, and a statis
235 olution, and electron microscopy, as well as
numerical simulations of neurons as discrete, elastic ro
236 Beijing Tongren Hospital will be used in the
numerical simulations of our model.
237 ntial in the crossing region and agrees with
numerical simulations of the atomic dynamics.
238 Numerical simulations of the corresponding springy billi
239 In silico, direct
numerical simulations of whole blood predicted elevated
240 This paper presents large-scale
numerical simulations of zone annealing and chemo-epitax
241 Here,
numerical simulations predicted the effect of localizati
242 Numerical simulations show that initial Gaussian pulses
243 Numerical simulations show that the springy billiard sys
244 We show experimentally and through
numerical simulations that a high-energy electron beam i
245 We verify hyperbolic dispersion with
numerical simulations that model the metasurface as a co
246 Here, we present
numerical simulations that show that the field distribut
247 To this effect, we carry out
numerical simulations to characterize the stellar wind o
248 We use agent-based
numerical simulations to demonstrate that if average len
249 Here, we use
numerical simulations to explore different guided phase
250 Here we use high-resolution
numerical simulations to show how structural inheritance
251 e find agreement between our experiments and
numerical simulations using a model of the device with n
252 From
numerical simulations we find that the new models (UCM a
253 Numerical simulations were carried out for the morpholog
254 The data are underpinned by 3D
numerical simulations which suggest that in these condit
255 Here,
numerical simulations with discrete tracking of red bloo
256 Using
numerical simulations with high resolution digital model
257 es of two-dimensional high-resolution direct
numerical simulations with the aim of understanding the
258 y supported by rigorous data analysis and by
numerical simulations, all in perfect agreement with exp
259 Our
numerical simulations, based on experimentally-feasible
260 With
numerical simulations, simultaneous multi-band valley de
261 Numerical simulations, supported by experimental validat
262 Based on our experimental results and
numerical simulations, we conclude that tissue interfaci
263 h thermal and chemical spectromicroscopy and
numerical simulations, we confirm that the former is cau
264 Using analytical calculations and
numerical simulations, we derive optimal operational reg
265 Specifically, in
numerical simulations, we observe an inverse relationshi
266 experimental data can be well reproduced by
numerical simulations, where the condensate is coupled t
267 ur observations are supported by large-scale
numerical simulations.
268 a finding that we further substantiate using
numerical simulations.
269 The results are also validated with
numerical simulations.
270 400-600 kHz, are complemented by time domain
numerical simulations.
271 esults show good quantitative agreement with
numerical simulations.
272 , live-cell superresolution experiments, and
numerical simulations.
273 visual object individuation limits infants'
numerical skills and necessitates a reliance on continuo
274 e, implicating the ANS in the development of
numerical skills.
275 Numerical solution of the diffusion equation, as well as
276 stem, and provides a constraint for refining
numerical solutions for insolation, which will enable a
277 The experimental results also match with
numerical solutions obtained by finite element simulatio
278 rdinary differential equation and stochastic
numerical solvers for single-compartment simulations of
279 combination of experimental, theoretical and
numerical studies is used to investigate the variation o
280 Here we carried out
numerical studies on the InGaN DA showing the tunable op
281 fractal dimension (D f = 2.2) with extensive
numerical studies we find that: (i) Persson's theory des
282 Our
numerical studies with simulated and real data demonstra
283 the model are confirmed in a set of rigorous
numerical studies.
284 onsider these questions in an analytical and
numerical study of minimal unlinking pathways.
285 In a predefined
numerical subset of all of the infants recruited to the
286 with the theoretical concepts and provides a
numerical summary of the state-of-the-art in the field.
287 Zero represents a special case in our
numerical system because it is not represented on a sema
288 ed continuous magnitudes in the context of a
numerical task revealing that infants can discriminate n
289 o control for all continuous magnitudes in a
numerical task.
290 uggests that representations that connect to
numerical tasks are likely subserved by evolutionarily c
291 In this study, we demonstrate physics based
numerical techniques along with Analysis of variance (AN
292 Our results show the power of applying
numerical techniques to control linear oscillators and p
293 future mine pit lakes worldwide requires new
numerical tools that integrate geochemical, hydrological
294 gnificant progress toward the development of
numerical transport models integrating both PFAS partiti
295 s with attributes of binary, categorical, or
numerical type only.
296 Moreover,
numerical validations confirm an error below 0.02% for e
297 Neural representations of approximate
numerical value, or numerosity, have been observed in th
298 Despite the large
numerical variety the majority of intermediates follow s
299 t agreements between theoretical results and
numerical verification are obtained.
300 associated with statistically significant or
numerical worsening of PROs, QILD, and QLF.