ライフサイエンスコーパス: vibrate

1 local harmonic potential in which the atoms vibrate.

2 m, causing its flexible tympanic membrane to vibrate.

3 d skin patterns that are proud and sometimes vibrate.

4 s are elastic thin rods; hence, they tend to vibrate.

5 wherein a worker grabs onto another bee and vibrates.

6 elastic basilar membrane inside the cochlea vibrates.

7 bridge and not to the ring that is actually vibrating.

8 Courting males vibrate a wing to sing bouts of pulses and hums, called

9 The artificial cilia can also vibrate accordingly in water to initiate subsequent task

10 stood in normal and Romberg stances with six vibrating actuators positioned on the torso in contact w

11 The effect of the vibrating amplitude and frequency on the electroanalytic

12 The antennae of flying moths vibrate and experience Coriolis forces during aerial man

13 excitability of corticospinal outputs to the vibrated and other hand muscles was evaluated with trans

14 ackets to dictate the way a neutral molecule vibrates, and steer and manipulate the ionization and di

15 6 days of exposure to sediment under static, vibrating, and fully mixed modes.

16 By slowly scanning an AFM probe across a vibrating area of the sample, the frequency and amplitud

17 duals, this stimulus produces flexion of the vibrated arm around the elbow joint.

18 n this work, we reveal that Cu atomic dimers vibrate as a rattling mode with frequency around 11 meV,

19 ere the water drops move at a high speed, or vibrate at a high frequency.

20 arrangement of the elastic leg permits it to vibrate at a higher frequency of 30-40 Hz that could cau

21 scosity data at higher flexural modes, which vibrate at elevated frequencies.

22 lytic site, the O-5', O-4', and O(P) oxygens vibrate at frequencies of ca. 125 and 465 cm(-1), as opp

23 The probe is vibrated at about 300 Hz by a piezoelectric bender.

24 The results showed that whiskers vibrated at frequencies of 100-300 Hz, with a dynamic re

25 field, a magnetoelastic sensor mechanically vibrates at a characteristic resonance frequency, the va

26 Reminiscent of a tuning fork that vibrates at a fixed frequency, the device was classified

27 V)-oxo (perchromyl) stretch of (tpfpc)Cr(V)O vibrates at a frequency of 986 cm(-1) in carbon disulfid

28 Hydrogen within the beta-HQ clathrate vibrates at considerably lower frequency than hydrogen i

29 nsors based on nanoelectromechanical systems vibrating at high and ultrahigh frequencies are capable

30 s extended to consider higher flexural modes vibrating at high Reynolds numbers.

31 An electronic circuit keeps the glass tube vibrating at its resonance frequency, which is inversely

32 Mechanically vibrating AT-cut quartz plates may be used to determine

33 s paper we aim to investigate the use of the Vibrating Barrier (ViBa) as a potential strategy to miti

34 The Vibrating Barrier is a structure buried in the soil that

35 beads, suggesting a 99% chance of trapping a vibrating bead.

36 This paper introduces a differential vibrating beam MEMS accelerometer demonstrating excellen

37 These results demonstrate that vibrating beam MEMS accelerometers can be employed for m

38 Understanding how the organ of Corti vibrates because of acoustic pressure and outer hair cel

39 lear sensory epithelium, the organ of Corti, vibrates because of external and internal excitations.

40 slices of defined size and thickness using a vibrating blade microtome.

41 um after 56 days of deployment in the system vibrated briefly every 2 min, while none of the congener

42 ross surfaces generally involves motion on a vibrating but otherwise stationary substrate.

43 The tip is driven to vibrate by the motion of a tip holder assembly which con

44 Sound vibrates C. elegans skin, which acts as a pressure-to-di

45 Placement of an extracellular vibrating Ca(2+)-selective microelectrode to within 1 mi

46 g of waves from a cell inside a fluid-filled vibrating cantilever with a temporal resolution of < 1 m

47 ptual responses following the ingestion of a vibrating capsule.

48 equencies above 3 kHz, the tympanic membrane vibrates chaotically.

49 The vibrating CO molecules behave like classical oscillating

50 ed by electron tunneling between neighboring vibrating Cu atoms.

51 Cs and closer approach to equilibrium in the vibrated deployment resulted in estimation of corrected

52 'Heterotopic' effects on a muscle not vibrated during the intervention were unaffected.

53 rd-traveling waves and found that the stapes vibrates earlier than the basilar membrane.

54 ple is experimentally studied using scanning vibrating electrode technique (SVET), profilometry, and

55 intracellular gradient and an ion selective vibrating electrode to detect the extracellular influx.

56 rotein folds mechanically and its structures vibrate electromagnetically.

57 none, unilateral, and bilateral) applied via vibrating elements placed on the mastoid processes were

58 se, direct measurement of the structure of a vibrating excited-state polyatomic organic molecule has

59 d symptoms of serial sessions of heating and vibrating eye mask followed by intense pulsed light (IPL

60 suring the amplitude of motion of a flexible vibrating fiber as it was loaded by the isolated cell.

61 long horizontal surfaces inside a vertically-vibrated fluid chamber, self-propelled by a resonant int

62 The pattern of standing ripples at half the vibrating frequency that results from this parametric fo

63 o-transduction of the IHC was tuned near the vibrating frequency, the active motility of the IHC ster

64 and elderly participants to stand quietly on vibrating gel-based insoles, and calculated sway paramet

65 aching a fused silica capillary emitter to a vibrating glass slide, improved signal quality is achiev

66 cted exponential growth in experiments using vibrated grains under microgravity, and we describe nove

67 sent measurements of vortices generated by a vibrating grid resonator at very low temperatures.

68 S.E.M.), but suppressed MEPs in the two non-vibrated hand muscles (72 +/- 9 %).

69 92 +/- 28 % of control) and more in the non-vibrated hand muscles (test response reduced to 27 +/- 5

70 duced to 17 +/- 3 % control) than in the non-vibrated hand muscles (test response reduced to 80 +/- 1

71 whilst having the opposite effect on the non-vibrated hand muscles.

72 b-laminates above and below the delamination vibrate in exactly the same mode in spite of their diffe

73 l elongated in the flow direction, which can vibrate in fast flows.

74 ound sensor possesses two coupled wings that vibrate in response to sound according to a superpositio

75 features support the hypothesis that it also vibrates in a manner like the vibrations that occur in t

76 f the basilar membrane; this travelling wave vibrates in phase with the reticular lamina at the best

77 quid-phase operation of resonant cantilevers vibrating in an out-of-plane flexural mode has to date b

78 Because microstructures vibrating in fluid are subject to high-viscous friction,

79 il in a flow and a hinged-free elastic plate vibrating in its lowest mode.

80 e a more symmetric character, with the walls vibrating in phase, and the size of the pocket remaining

81 pplications, resonant cantilever transducers vibrating in their in-plane rather than their out-of-pla

82 ly high quality factors, such as cantilevers vibrating in vacuum, can show characteristic Fano asymme

83 s observed in the energy dissipated by a tip vibrating in water perpendicularly to a surface.

84 We designed the Vibrating Ingestible BioElectronic Stimulator (VIBES) pi

85 l noise applied to the soles of the feet via vibrating insoles can be used to improve quiet-standing

86 hy elderly subjects from a previous study on vibrating insoles were added for comparison.

87 Noise-based devices, such as randomly vibrating insoles, could ameliorate age-related impairme

88 d analytical and imaging techniques, such as vibrating ion-selective electrodes, carbon fiber amperom

89 re epidermis, determined using extracellular vibrating ion-selective microelectrodes.

90 erated by the collective displacement of the vibrating ions, and we have applied an effective medium

91 The mean distance between the vibrating line and Fovea Palatinae was 3.66 +/- 1.6 mm a

92 on vibrating line position, 129 (58%) had a vibrating line anterior to Fovea Palatinae, 57 (26%) on

93 cations of Fovea Palatinae and the posterior vibrating line in different classes of soft palate angul

94 Based on vibrating line position, 129 (58%) had a vibrating line

95 emales in regard to House classification and vibrating line position.

96 Also, the vibrating line was anterior to the Fovea Palatinae in th

97 distance between the Fovea Palatinae and the vibrating line was measured and recorded.

98 ative position of the Fovea Palatinae to the vibrating line was recorded as being anterior, posterior

99 he odds of having the fovea posterior to the vibrating line would increase by 5% for each year increa

100 he odds of having the fovea posterior to the vibrating line would increase by age.

101 rded as being anterior, posterior, or on the vibrating line.

102 on was used to determine the position of the vibrating line.

103 e considered a useful guide for locating the vibrating line.

104 yboards, computer mouse, heavy machinery, or vibrating manual tools.

105 brain tumors and curling iron, heating pad, vibrating massager, electric blanket, heated water bed,

106 osure, and feed type, infant duration on the vibrating mattress in the newborn unit was associated wi

107 l structure similar to the normal modes of a vibrating membrane (drum).

108 simulations and experiments, we show that a vibrating membrane can produce acoustic streaming.

109 via a customized investigational eFlow-Neos vibrating membrane nebulizer system, 2) bolus administra

110 ivered to the lungs of rats using a modified vibrating mesh aerosol drug delivery system.

111 s can be delivered to murine lungs through a vibrating mesh nebulizer (VMN).

112 odrops with initial diameters ~100 nm, and a vibrating mesh nebulizer, which produces 2-20 mum drople

113 Nebulization was performed through a vibrating mesh nebulizer.

114 diagnosis via inhaled delivery of mAbs with vibrating mesh nebulizers as a promising approach for th

115 A modified vibrating microelectrode system was used to measure H+ f

116 net Ca2+ influx (measured by Ca2+-selective vibrating microelectrode) and NSCC activity were increas

117 The platform includes three core elements: a vibrating microtome for ultraprecision slicing of large-

118 of the spontaneous separation of vertically vibrated mixtures of fine bronze and glass spheres of si

119 Subsequent ionization of the vibrating molecules by an extreme ultraviolet pulse prob

120 n octave-spanning mid-infrared waveforms and vibrating molecules in aqueous solution.

121 In high and very high frequency (HF/VHF) vibrating MoS2 devices based on diaphragms of ~2-5 mum i

122 the larynx for the other primates, e.g., by vibrating multiple sets of ventricular folds in several

123 racortical inhibition (SICI and LICI) in the vibrated muscle ('homotopic' effects) and having opposit

124 ncreased the amplitude of MEPs evoked in the vibrated muscle (162 +/- 6 % of MEP with no vibration; m

125 +/- 6 % control), there was more LICI in the vibrated muscle (test response reduced to 17 +/- 3 % con

126 5 % of control), there was less SICI in the vibrated muscle (test response reduced to 92 +/- 28 % of

127 tency intracortical inhibition (SICI) in the vibrated muscle, whilst having the opposite effect on th

128 Clocks tick, bridges and skyscrapers vibrate, neuronal networks oscillate.

129 e and low-methoxyl pectin by Ca(2+)-mediated vibrating-nozzle extrusion technology.

130 tronic states in the presence of classically vibrating nuclei.

131 oncept of VFE relies on a phenomenon where a vibrating object is dampened when an external force is a

132 themselves into distinct layers when shaken, vibrated or sheared.

133 The aerosol is generated using a vibrating orifice aerosol generator providing monodisper

134 uorescein-tagged NaCl aerosol generated by a vibrating orifice aerosol generator, the capture efficie

135 more antisymmetric character, with the walls vibrating out of phase, and the pocket able to expand an

136 m resembles the intrinsic noise generated by vibrating particles in viscous isotropic solids, which d

137 ts suggest that the skin bounces against the vibrating plate but that the bounces are cushioned by a

138 This dimer placed on a vibrating plate exhibits 3 types of motion - by tuning t

139 d damping materials, moreover, it brings the vibrating plate into the overdamped condition, which is

140 rty of existing active particles driven by a vibrating plate.

141 as ten participants jumped on a sinusoidally vibrating platform of 2.0, 2.4 and 2.8 Hz at 2 m/s(2).

142 Herein, we used a new vibrating platform, developed based on our earlier platf

143 Jumping on vibrating platforms is described not only by the frequen

144 o discourage the use of dynamic exercises on vibrating platforms.

145 ted adaptations during jumping on vertically vibrating platforms.

146 and potentials of tumors were measured using vibrating probe and glass microelectrodes, respectively.

147 This vibrating probe is an insulated, sharpened metal wire wi

148 cture and use of a simplified ultrasensitive vibrating probe system for measuring extracellular elect

149 urrent density (I(sc)) was recorded with the vibrating probe technique and was found to be similar in

150 Using vibrating probe techniques, we provide detailed temporal

151 Here we used a vibrating probe to demonstrate that diabetic corneas pro

152 this question, we have used an ion-selective vibrating probe to measure changes in extracellular Ca2+

153 xes measured at the tip of PTs with an anion vibrating probe were significantly lower in slah3(-/-) a

154 By using a vibrating probe, we have found an electric current gener

155 etected using a noninvasive proton-selective vibrating probe.

156 When an object approaches a vibrating quartz crystal microbalance (QCM) the resonant

157 allowed by the packing, but the side-chains vibrate relative to the backbone.

158 ometer-thick space between two flat surfaces vibrating relative to each other.

159 measurements were obtained using SQUID based vibrating sample magnetometer (MPMS 3, Quantum Design).

160 First, magnetic properties were studied by vibrating sample magnetometer (VSM) and it was found tha

161 traviolet-visible spectroscopy (UV-Visible), vibrating sample magnetometer (VSM), and field emission

162 er transformed infrared spectroscopy (FTIR), vibrating sample magnetometer (VSM), energy-dispersive X

163 n-transmission electron microscopy (HR-TEM), vibrating sample magnetometer (VSM), X-ray diffraction (

164 n (XRD), dynamic laser scattering (DLS), and vibrating sample magnetometer (VSM).

165 ion scanning electron microscopy (FESEM) and vibrating sample magnetometer (VSM).

166 ra, Fourier transform infrared spectroscopy, vibrating sample magnetometer analysis and transmission

167 Using a vibrating sample magnetometer the field of first flux pe

168 on, Fourier-transform infrared spectroscopy, vibrating sample magnetometer, inductively coupled plasm

169 the prepared samples were determined using a vibrating sample magnetometer.

170 olution transmission electron microscope and vibrating sample magnetometer.

171 d their magnetic properties were tested by a vibrating sample magnetometer.

172 erent techniques such as FT-IR spectrometry, vibrating sample magnetometery, TEM, FE-SEM and EDS were

173 n microscopy (SEM), X-ray diffraction (XRD), vibrating sample magnetometry (VSM), inductively coupled

174 ncies were experimentally characterized by a vibrating sample magnetometry and a frequency-swept ferr

175 ning electron microscopy, X-ray diffraction, vibrating sample magnetometry, and cyclic voltammetry.

176 ferromagnetic state was characterized using vibrating sample magnetometry, magnetic force microscopy

177 EM-EDX, X-ray photoelectron spectroscopy and vibrating sample magnetometry.

178 eries of complementary techniques, including vibrating-sample magnetometry (VSM), energy-dispersive X

179 The new ionization technique termed vibrating sharp-edge spray ionization (cVSSI) has been c

180 Vibrating sharp-edge spray ionization (VSSI) is a new me

181 The vibrating sharp-edge spray ionization functions with flo

182 A new interfacing method based on vibrating sharp-edge spray ionization is presented in th

183 ESI in negative ion mode based on capillary vibrating sharp-edge spray ionization.

184 ation of human-tissue-scale forces through a vibrating silicone implant.

185 In response, a portion of the object vibrates sinusoidally in a pattern determined by its vis

186 to the changes in resonant frequency of the vibrating solid and energy dissipation on its surface.

187 en the slip and the mechanical response of a vibrating solid for a moving fluid.

188 or characterization of the liquid slip using vibrating solid surfaces.

189 ad to consideration of 'missing slip' in the vibrating solid-liquid systems such as the QCM-based bio

190 A simple vibrating string model is used to predict fundamental fr

191 The dimensions of the vibrating structures range from a few hundred (e.g., the

192 ciple exploits the dynamic interaction among vibrating structures resting on a compliant semi-infinit

193 ensional finite element model of a cell on a vibrating substrate is developed to extract the mechanic

194 Using quantum tunneling of electrons into vibrating surface atoms, phonon oscillations can be obse

195 e the dynamics of a ball bouncing on a rough vibrating surface.

196 tationary waves occurs in a large variety of vibrating systems, whether mechanical, acoustical, optic

197 Sound stimuli vibrate the hair bundles on auditory hair cells, but the

198 e investigate a new optoacoustic approach to vibrate the hearing organ with laser stimulation to impr

199 Active middle ear implants, which directly vibrate the middle ear and cochlea, are an alternative a

200 ves the electrode up and down to bend and/or vibrate the nanowires.

201 as commonly expected; instead, they actively vibrate the reticular lamina over a broad frequency rang

202 We use a small acoustic speaker to vibrate the sample while a synchronously pulsed cold cat

203 s, however: stimulation of the cochlear bone vibrates the basilar membrane as well.

204 Acoustic stimulation vibrates the cochlear basilar membrane, initiating a wav

205 rberating bell-shaped cloak in between which vibrates the ear bones and bladders of the flying fish d

206 In the normal mammalian ear, sound vibrates the eardrum, causing the tiny bones of the midd

207 lised flower is achieved most efficiently by vibrating the anthers, a behaviour that has evolved repe

208 ition time, -1.2 V deposition potential, and vibrating the electrode at frequency of 250 Hz and ampli

209 needle by withdrawing back 100-300 microm or vibrating the microneedle array dramatically increased i

210 Further improvement was accomplished by vibrating the microwire working electrode, which increas

211 Poised on the verge of vibrating, the hair bundle acts as an active amplifier.

212 Male flies vibrate their wings toward females to produce two differ

213 on has limitations because the motion of the vibrating tip is not completely transferred into the liq

214 atomic force microscopy (AFM), in which the vibrating tip periodically approaches, interacts and ret

215 to demonstrate that they can simultaneously vibrate to lower the fundamental frequency and increase

216 the tensed vocal folds of the larynx, which vibrate to produce sound.

217 ranes attached to modified mineralized rings vibrate to produce sound.

218 urce generation, where a pair of vocal folds vibrates to modify the air flow.

219 Chronic exposure to hand-held vibrating tools may cause endothelial injury.

220 nse to cold in those who work with hand-held vibrating tools.

221 causing the tiny bones of the middle ear to vibrate, transferring the vibration to the inner ear flu

222 CN-met hemoglobin (Hb) were measured with a vibrating tube densitometer.

223 In each case, vibrating tube sensor data revealed significantly differ

224 controlled-release pellets in fluid using a vibrating tube sensor, a piece of glass tubing bent into

225 assing the pellet back-and-forth through the vibrating tube sensor, we can monitor its mass as it deg

226 fundamental frequency and the harmonics of a vibrating violin string.

227 Clinical symptoms of photopsias/vibrating vision and signs of macular edema, vitreous ha

228 ons), the subjective complaint of photopsias/vibrating vision was associated with the objective findi

229 ulatory actions of a sound source, e.g., the vibrating vocal folds, and an acoustic filter, formed by

230 eev reflection is measured using an array of vibrating wire sensors.

231 The entire tip assembly is induced to vibrate with the flux of an external ac electromagnetic

232 patterns strikingly similar to a liquid when vibrated, yet respond to stirring by "unmixing" of large