ライフサイエンスコーパス: gravity

1 with no bounds for motion along the axis of gravity.

2 tion and static head orientation relative to gravity.

3 participates in the shaping of plant form by gravity.

4 -containing water through the membrane under gravity.

5 fferent static head orientations relative to gravity.

6 vestibular system to sense the direction of gravity.

7 sion of the ocean under gravity, hereinafter gravity.

8 ion Balance (CAB) when set to effective zero gravity.

9 riments while carefully tuning the effect of gravity.

10 epending on the head orientation relative to gravity.

11 ational vector has a component orthogonal to gravity.

12 to the world and our orientation relative to gravity.

13 actual weight - dependent on the strength of gravity.

14 rception of odors, taste, vision, sound, and gravity.

15 ength liquids, whose sessile droplets sag by gravity.

16 rbal reports are independently influenced by gravity.

17 o mechanical work by lifting objects against gravity.

18 up to 48 times longer under reduced martian gravity.

19 Sun) convective cells, owing to low surface gravity.

20 ristic scale where thermal pressure balances gravity.

21 rotations about an axis defined relative to gravity.

22 ssues or forces due to muscle contraction or gravity.

23 um superposition states and tests of quantum gravity.

24 le out a repulsive nature for the antimatter gravity.

25 ons dictated by physical forces that include gravity.

26 the postural system realigning the body with gravity.

27 exposed to simulated microgravity or normal gravity.

28 annot detect sound or orient with respect to gravity.

29 ns for the reconstructed [Formula: see text] gravity.

30 as dense, solute-laden fluid descends under gravity.

31 ations up to ~ 450 times the acceleration of gravity.

32 persist for years after the return to normal gravity.

33 h could be aligned or tilted with respect to gravity.

34 imately 5 ms at accelerations as high as 5.5 gravities.

35 nd or their head, both in normal terrestrial gravity (1 g) and during exposure to experimentally alte

36 t during alternating short periods of normal gravity (1 g).

37 the method to five crude oils of varying API gravity (12.1-38.3 degrees ) demonstrates a potential fo

38 ise measurements-for example, of inertia(1), gravity(2) and rotation(3)-are based on matter-wave inte

39 to examine the association between specific gravity-adjusted (SPG-adj) maternal BPA concentrations a

40 However, whether gravity affects the open circulatory systems of inverteb

41 Gravity affects the physiology of many animals, and the

42 Artificial gravity (AG) through short-arm human centrifugation (SAH

43 y, 13 +/- 2 mmHg) were reduced in acute zero gravity, although not to the levels observed in the 90 d

44 ier transform infrared spectroscopy, thermal gravity analysis and Brunauer-Emmett-Teller of TiO(OH)2

45 old star, yet it has abnormally low surface gravity and a detectable long-term luminosity decay, whi

46 on growth, suppressing organ growth towards gravity and allow for radial expansion of the root syste

47 rom a fundamentally semi-classical theory of gravity and can, therefore, be considered a test case fo

48 ater storage to complement analyses from the Gravity and Climate Experiment (GRACE) mission but at mu

49 Given its large surface gravity and cool insolation, the planet may have retaine

50 e asymmetric mesoflower particles, for which gravity and elastic torque balancing yields monopole-typ

51 h and roll orientation tuning is anchored to gravity and independent of visual landmarks.

52 signals sensed by newly germinating seeds - gravity and light - direct root growth into the soil to

53 ne promotes the emergence and growth of ARs, gravity and light determine their gravitropic setpoint a

54 ot only by altered gas diffusion but also by gravity and light.

55 Nonflooded species had higher wood specific gravity and lower stomatal density, whereas flooded spec

56 ory for simultaneously studying strong-field gravity and matter in extreme environments.

57 ptions in different orientations relative to gravity and predicted their responses by modelling the e

58 Here we report gravity and shape measurements of Ceres obtained from th

59 ranial compartments, we simulated effects of gravity and significantly lowered pressure within the br

60 the droplet is unperturbed by the effect of gravity and takes the form of a spherical cap, for which

61 da and the f-mode frequency enables tests of gravity and the nature of compact binaries.

62 astronomy has enabled tests of the nature of gravity and the properties of black holes, and in 2017 e

63 h resulted an elongated cell shape in normal gravity and this deformed cell shape got rescued to norm

64 Here we use seismic velocity, gravity and topography to generate a 3D lithospheric den

65 We conclude that root tropic responses to gravity and water are driven by distinct tissue-based me

66 ll interaction, compared to Brownian motion, gravity, and cell membrane deformation energy.

67 vibrational energy, bond strength, velocity, gravity, and evaporation/condensation.

68 e interaction between flower, pollinator and gravity, and how petal surface structure can influence t

69 stellar properties such as rotation, surface gravity, and spectral type.

70 Here we use residual topography and gravity anomalies to constrain the geological structure

71 3) A gravity anomaly there may also reflect the presence of a

72 es a subsurface ocean, the required positive gravity anomaly would naturally result because of shell

73 n, but requires the feature to be a positive gravity anomaly, despite its negative topography.

74 plicial complexes are widely used in quantum gravity approaches that involve a discretization of spac

75 ystems: Cellular and organismal responses to gravity are of central importance to understanding the p

76 Many animals use gravity as a spatial reference to help navigate their su

77 However, how the brain then accounts for gravity as we actively move and interact with our enviro

78 We use the gravity aspects (gravity disturbances, the Marussi tenso

79 Because of this gravity-assisted sampling approach, the transport of lar

80 body plane) and allocentric information (the gravity axis).

81 ould reflect the importance of the vertical (gravity) axis as a reference frame.

82 esults demonstrate that a three-dimensional, gravity-based, neural compass is likely a ubiquitous pro

83 ge dynamics of the thin air film squeezed by gravity between a millimetric droplet and a smooth solid

84 ive pressure (LBNP) simulates the effects of gravity by displacing fluid caudally and we hypothesized

85 that a periodic modulation of the effective gravity can perform time-reversal operations on monochro

86 how that during changes in body orientation, gravity causes large changes in blood and air distributi

87 rm monolayer by the implicit contribution of gravity, centrifugal force and surface tension, which ca

88 new formalism, taking into account both the gravity changes and the gravity-induced motion.

89 ing geodetic measurements of land uplift and gravity changes in northern Greenland.

90 Under constant light conditions, the gravity circuit appears to be inoperable, and both upwar

91 es in satellite measurement of time-variable gravity combined with reconciled global glacier loss est

92 ference in final yields was observed between gravity conditions, showing the efficacy of the process

93 ying movement direction in normal and zero-G gravity conditions.

94 s compared to non-biological controls in all gravity conditions.

95 ves, the tunicate Ciona, processes light and gravity cues through a simple neural circuit to decide w

96 hese results identify a thalamic pathway for gravity cues to influence perception, action and spatial

97 al (current plane of locomotion) and global (gravity) cues across several experimental conditions, in

98 iated stem cell as compared with 3D-standard gravity culture.

99 Existing theory of gravity current flow employs a statistically-stable mode

100 he first set of detailed spatial data from a gravity current over a rough seafloor that demonstrate t

101 plain phenomena such as ultra-long runout of gravity currents and restricted growth of bedforms, and

102 Long-running gravity currents are flows that are submerged beneath a

103 Gravity currents are the primary means by which sediment

104 Punatsangchhu-I hydropower plant, a concrete gravity dam under construction in Bhutan since 2009.

105 seismically measured extent of the APMB, and gravity data suggest that the uplift is isostatically co

106 Stretching the model under gravity demonstrates that asymmetric slip via collapse o

107 s that seismicity focuses in regions of high-gravity-derived deviatoric stress.

108 We find that Saturn's gravity deviates from theoretical expectations and requi

109 cs", such as different strength of effective gravity, different versions of modified Newtonian dynami

110 ROS and auxin signals that are required for gravity-directed curvature.

111 s, coseismic offsets, under the influence of gravity, display predominantly subsidence of the basin s

112 We use the gravity aspects (gravity disturbances, the Marussi tensor of the second d

113 Complete removal of gravity does not pathologically elevate ICP but does pre

114 ms and we investigate five; A: capsizing, B: gravity-dominated fall, C: buoyancy-dominated fall, D: g

115 Gravity-dominated icebergs essentially fall into the wat

116 xperiments that iceberg-tsunami heights from gravity-dominated mechanisms (B and D) are roughly an or

117 minated fall, C: buoyancy-dominated fall, D: gravity-dominated overturning and E: buoyancy-dominated

118 The crater formed in the gravity-dominated regime; in other words, crater growth

119 While there are similarities to gravity driven bioconvection and the Rayleigh-Benard ins

120 The gravity driven oil-water separation system was designed

121 Gravity-driven avalanches, known as turbidity currents,

122 A gravity-driven droplet will rapidly flow down an incline

123 workflows (simple filtration prep (SFP)) and gravity-driven filtration prep (GFP)) and pre-dispensed

124 orm-water mixture was achieved when used for gravity-driven oil/water separation test.

125 n and orientation relative to gravity, these gravity-driven responses are cancelled when head movemen

126 In contrast, the gravity-driven responses of primary otolith and semicirc

127 cision, which is often dampened by increased gravity-driven sediment transport on side-slopes by up t

128 ternal model) of the sensory consequences of gravity during active self-motion, which in turn enables

129 h could provide fewer mechanisms to restrict gravity effects on blood flow, suggesting that these spe

130 C, favored the vertical axis, perhaps due to gravity effects.

131 uld allow access to lower temperatures(1,2), gravity empties atom traps that are too weak.

132 ghly efficient adaptation potential to a low gravity environment.

133 feedback, coupled jointly to turbulence and gravity, extends the starburst phase of a galaxy instead

134 The mass and gravity field are derived from measured spacecraft veloc

135 Juno's measured gravity field differs substantially from the last availa

136 tions), all derived from the combined static gravity field model EIGEN 6C4, with the ground resolutio

137 re generated in a laminar diffusion inverted gravity flame reactor (IGFR) operated on ethylene and et

138 loys hand screen printed carbon sensors with gravity flow for sample/reagent delivery and washing.

139 on of surface sediments through the sediment gravity flow.

140 Particle-laden gravity flows, called turbidity currents, flow through r

141 pendent effects of three fundamental forces (gravity, fluid drag, diffusion) provide a sufficient app

142 of the canopy (in a direction facilitated by gravity), foliar uptake (FU) may be a significant proces

143 Taking advantages of capillary phenomena and gravity forces, the solution transportation is promoted

144 Gravity has a profound effect on fluid distribution and

145 Gravity has been demonstrated to have strong effects on

146 y, and static compression of the ocean under gravity, hereinafter gravity.

147 otation vector had a component orthogonal to gravity, human perceptual responses were consistent with

148 to cosmic radiation, microgravity, increased gravity (hypergravity), psychological stress, physical s

149 Finger and thumb extension were full against gravity in 1 patient (100%).

150 Rods settling under gravity in a quiescent fluid can overcome the bottleneck

151 to the world and our orientation relative to gravity in order to ensure accurate perception and motor

152 hannel normally involved in the sensation of gravity in the vestibular system, is essential for sour

153 ysical activity (MVPA; acceleration >=0.1 g (gravity)) in smokers but not in never smokers: FVC diffe

154 dependent mechanism that creates an opposing gravity-induced auxin gradient.

155 nto account both the gravity changes and the gravity-induced motion.

156 From germination to flowering, gravity influences plant growth and development.

157 oxytocin, administered through a micro-drip gravity infusion set.

158 t related to the possible changes in reduced gravity, instability, transport of the GS, large-scale c

159 nable the transduction of sound, motion, and gravity into neuronal impulses.

160 ivatives of the disturbing geopotential, the gravity invariants and their specific ratio, the strike

161 The absence of gravity is an extreme stressor and the impact of its abs

162 While the effect of gravity is dominant in the dripping mode, the electric f

163 Gravity is one of the most ubiquitous environmental effe

164 rstones of GR, as well as Newton's theory of gravity, is the weak equivalence principle (WEP), statin

165 rrently many orders of magnitude larger than gravity itself.

166 aintained at specific angles with respect to gravity, known as gravitropic set point angles (GSAs).

167 ene elements that are typically aligned with gravity: large planes in the orientation range of ground

168 Inspired by the gravity law, we propose a gravity model that utilizes bo

169 The results showed that, for all gravity levels, the verbal reports of distance judgments

170 Bayesian phylogeographic analysis suggested gravity-like dynamics in which virus lineages first emer

171 n, determined by a single parameter from the gravity-like kernel.

172 previously developed fitting algorithm, and gravity-like mobility kernels.

173 lar responses to conditions that affect both gravity loading and muscle activity, for example bed res

174 applications such as inertial navigation and gravity mapping.

175 We use satellite gravity measurements in the Gravity Recovery and Climate

176 ratory experiment showed that when using the gravity method for infusion, half of the activity is inf

177 he most often used method of infusion is the gravity method, by which the complete dose is effectivel

178 ing the standard-infusion protocol using the gravity method.

179 e efficiency of microwave hydrodiffusion and gravity (MHG) by partially removing water from grapes wh

180 , in this study microwave hydrodiffusion and gravity (MHG) technology was used to dehydrate broccoli

181 explicitly in a widely used IAM employing a gravity model and compare four scenarios of border polic

182 mics on fourteen real networks show that the gravity model and the local gravity model perform very c

183 UR models and trip distribution data using a Gravity model based on zonal data for population, employ

184 Gravity model estimates indicate a sharp decay in influe

185 utational complexity, a local version of the gravity model is further proposed by introducing a trunc

186 ks show that the gravity model and the local gravity model perform very competitively in comparison w

187 their spatial separation, and the so-called gravity model postulates that this decline takes the for

188 Inspired by the gravity law, we propose a gravity model that utilizes both neighborhood informatio

189 For the local gravity model, the empirical results suggest an approxim

190 ly worse than an appropriately chosen simple gravity model.

191 administrative regions, inferring a classic 'gravity' model, with intense dispersal between larger an

192 ndary in upper-plate structure, across which gravity modelling indicates a south-to-north increase in

193 Yet, current gravity models do not allow a formal comparison of hiera

194 We then fit gravity models using annual traffic volumes of cars, bus

195 relationship between environment structure, gravity, movement and spatial memory.

196 in other words, crater growth was limited by gravity not surface strength.

197 due to the deflection of their light by the gravity of intervening structures-and estimating the cor

198 nd underuse of health-care resources and the gravity of resulting harms necessitate an investigation

199 termine predicted circadian phase, center of gravity of the fitted bimodal skewed baseline cosine cur

200 his work, like the solar radiation pressure, gravity of the Moon and oblateness of the Earth.

201 The gravity of the situation mandates accelerated efforts to

202 a mouse to locate the centroid-the center of gravity-of a briefly displayed cloud of dots and receive

203 uch precise control over atomic systems that gravity, often negligible when considering individual at

204 hat these species also experience effects of gravity on blood pressure and distribution.

205 We study the effect of gravity on giant soap bubbles and show that it becomes d

206 object's weight is determined by the pull of gravity on it.

207 ic resistance in the xylem and the effect of gravity on the water column, while enabling plants to sc

208 ich may not hold for alternative theories of gravity or exotic matter.

209 time, as well as the ability to induce rapid gravity or light stimulation.

210 The reduction in gravity, or microgravity, represents a novel environment

211 right and supine position, during acute zero gravity (parabolic flight) and prolonged simulated micro

212 We show that gravity perturbations are particularly well observed wit

213 Conversely, we show here experimentally that gravity plays a negligible role: The same collapse and w

214 hat the animal's orientation with respect to gravity plays an important role in determining a cell's

215 Thus, over 24 h in zero gravity, pressure in the brain is slightly above that ob

216 esults show that experimental alterations of gravity produce rapid changes in the perceived weight of

217 with inverted stem orientation revealed that gravity promotes upward growth by about 10 degrees .

218 6 models of population movement (adjacency, gravity, radiation, radiation based on population densit

219 Gravity Recovery and Climate Experiment (GRACE) and glob

220 Gravity Recovery and Climate Experiment (GRACE) observat

221 nges in groundwater storage derived from the Gravity Recovery and Climate Experiment (GRACE) satellit

222 d terrestrial water storage derived from the Gravity Recovery and Climate Experiment (GRACE) satellit

223 cre-feet) in groundwater volume derived from Gravity Recovery and Climate Experiment (GRACE) satellit

224 With Gravity Recovery and Climate Experiment (GRACE) satellit

225 elop a technique using observations from the Gravity Recovery and Climate Experiment (GRACE) satellit

226 Gravity Recovery and Climate Experiment (GRACE) satellit

227 We use satellite gravity measurements in the Gravity Recovery and Climate Experiment (GRACE) to estim

228 result provides an independent validation of Gravity Recovery And Climate Experiment (GRACE)-based oc

229 atena-producing craters likely formed in the gravity regime, providing constraints on the ejecta velo

230 the efficacy of the process under different gravity regimens.

231 calculations, we suppose that the effect of gravity relative to the surface tension is weak, i.e. th

232 adjusted for urinary creatinine and specific gravity, respectively.

233 nd otolith, which are sensitive to light and gravity, respectively.

234 Significantly, the gravity response causes an orienting behavior consisting

235 ) had the profound effect of switching shoot gravity responses from negative (upward bending) to posi

236 here a physical separation between sites for gravity sensing and curvature response has facilitated d

237 Gravity sensing provides a robust verticality signal for

238 Gravity sensing takes place in the columella cells of th

239 teins control plant architecture by coupling gravity sensing to the formation of auxin gradients that

240 , selective nutrient uptake and storage, and gravity sensing.

241 ent normally established across stems by the gravity-sensing mechanism.

242 Gravity-sensitive cellular responses are regularly obser

243 ed to a phase settling reservoir, where they gravity settle.

244 scWB involves five main stages: (i) gravity settling of cells into microwells; (ii) chemical

245 ing for age, body mass index (BMI), specific gravity (SG), and, for the PCA, other factor scores.

246 quency) spectrometer to predict the specific gravity (SG), distillation temperature (T50%), and final

247 f so, changes in the experienced strength of gravity should alter the experience of one's own body we

248 ere we report on the search of such a prompt gravity signal in data recorded by a superconducting gra

249 Furthermore, we show that the gravity signal is strongly suppressed compared to that p

250 This accumulation of ice causes a positive gravity signature that locks, as Pluto's rotation slows,

251 Accelerated by gravity, submarine landslides transfer energy to the mar

252 nule size, effective temperature and surface gravity that are predicted by simulations of stellar sur

253 occurs through an internal representation of gravity that can lead to inferred linear accelerations i

254 et deforms noticeably under the influence of gravity, the rate of evaporation remains almost unchange

255 ntial for low-energy tests of future quantum gravity theories describing dynamics at the Planck scale

256 s of head motion and orientation relative to gravity, these gravity-driven responses are cancelled wh

257 anchored to earth-centered landmarks such as gravity, through computations whose neuronal substrate r

258 d direct evidence of cellular sensitivity to gravity, through real-time on orbit measurements and by

259 The woody stems of trees perceive gravity to determine their orientation, and can produce

260 ment control policies that take advantage of gravity to minimize movement effort.

261 to the head-horizontal plane, but also uses gravity to remain anchored to the allocentric bearings i

262 we obtain the leading-order contribution of gravity to the rate of droplet evaporation by utilizing

263 s of selected formulation including specific gravity, turbidity, viscosity, average droplet size, spa

264 in microgravity and simulated Mars and Earth gravities using three microorganisms and a purposely des

265 rth-based remote observations cannot measure gravity variations and the magnitude of the precession r

266 bution of pulmonary perfusion is affected by gravity, vascular branching structure and active regulat

267 cellular auxin transport is aligned with the gravity vector in the primary root tips, facilitating do

268 ation of root tips growing along the natural gravity vector over prolonged periods of time, as well a

269 Plant shoots typically grow against the gravity vector to access light, whereas roots grow downw

270 tes upward shoot orientations in response to gravity via altered auxin transport.

271 The specific gravity, viscosity and refractive index of CSO at ambien

272 ns and beer composition parameters: original gravity, viscosity, indices of macromolecular distributi

273 of estrogens corrected for urinary specific gravity was identified during the gestation period.

274 Employing acoustic-gravity wave theory we present an analytical inverse met

275 We also show that surface gravity waves and bubbles in high sea states can cause i

276 Surface gravity waves and near-sea-surface air bubbles decorrela

277 in-situ how opposing groups of ocean surface gravity waves generate double-frequency seismic Scholte

278 Atmospheric gravity waves generated by an eclipse were first propose

279 no definitive evidence for eclipse generated gravity waves in the lower to middle atmosphere.

280 ly 2, 2019 aimed at detecting eclipse-driven gravity waves in the stratosphere.

281 It is well known that tsunamis can produce gravity waves that propagate up to the ionosphere genera

282 model employs the phase velocity of acoustic-gravity waves that radiate during the impact, and only c

283 rt observations of microseism, local surface gravity waves, and a teleseismic earthquake along a 4192

284 he underlying topography owing to orographic gravity waves.

285 echniques for the detection of stratospheric gravity waves.

286 clipse was the source of three stratospheric gravity waves.

287 oping more accurate physical descriptions of gravity waves.

288 ess a significant characteristic of acoustic-gravity waves: the ability to penetrate through the sea-

289 uctural variability, including the impact of gravity waves; and (iv) the resulting amplification in t

290 elf-sharpening, by boundary-induced internal gravity waves; as predicted by recent advances in fluid

291 fferent nonbuoyant suspensions flowing under gravity, we demonstrate that particles in shear-thickeni

292 rimental system, in which all factors except gravity were constant.

293 ers are attached to particles or tethered by gravity when feeding.

294 orientation of the head and body relative to gravity, which generates a modulation of horizontal (con

295 are able to orient their growth according to gravity, which ultimately controls both shoot and root a

296 ity have led to many rival models of quantum gravity, which, however, generally lack experimental fou

297 that Isaac Newton came up with his theory of gravity whilst quarantined during the bubonic plague.

298 at bone and muscle mass are regulated by the gravity with loaded force in both of positive and negati

299 val, T wave left slope, and T wave center of gravity x axis (last 25% of the T wave).

300 0 [0.24-0.69]; P<0.001) and T-wave center of gravity x axis (last 25% of wave) in lead I (hazard rati