gigapascals

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(Click for frequent words.) 73 GPa 71 megapascals 66 MPa 62 W mK 61 kPa 61 mK 61 torr 60 kilopascals 60 psia 60 elastic modulus 60 #bar [001] 60 proton conductivity 59 microvolts 59 #MPa 59 #oC [001] 59 perovskite 59 ksi 59 ohm cm 59 -# degrees Celsius [001] 59 keV 58 mbar 58 cm -2 58 cm ² 58 dielectric constant 58 thermal conductivities 58 diamond anvil 58 W/cm2 58 electrical resistivity 58 mu m 58 mT 58 hectopascals 58 shear modulus 58 -# ° C [001] 57 #.#nm [002] 57 #oF [001] 57 -# degrees Fahrenheit [002] 57 photon energies 57 #degC [002] 57 isotherm 57 oC 57 hPa 57 kelvin 57 Â ° C. 57 Mg Fe 56 annealing temperature 56 cm -3 56 Young modulus 56 temperature coefficients 56 g cm 56 μS cm 56 SiO 2 56 +# º C [002] 56 ms -1 56 ⁰ C 56 PSIG 56 modulus 56 meV 56 mm Hg systolic 56 tensile stress 56 kg/m3 56 thermal conductivity 56 micron thick 56 kcal mol 56 #.# mb 56 cm ^ sup 56 cryogenic temperatures 56 μm thick 56 cm -1 56 psig 56 millidarcies 55 tensile strengths 55 hafnium oxide 55 micrometre 55 thermal gradients 55 º Celsius 55 compressibility 55 2 MeV electron 55 Vrms 55 #μm [002] 55 #F #C [001] 55 mm Hg diastolic 55 gauss 55 thermally stable 55 degC 55 conductance 54 inch psi 54 Kelvin -# 54 W/m2 54 nanometers nm 54 ° C 54 g/m2 54 millibar 54 Å -1 54 megohms 54 μV 54 GeV 54 lowermost mantle 54 degF 54 Mpa 54 martensite 54 º Fahrenheit 54 μm 54 ˚ C. 54 MeV 54 diamond anvils 54 flexural 54 ℃ 54 dipole moment 54 micrometre sized 54 FeO 54 μm diameter 54 isotope fractionation 54 1μm 54 martensitic 54 permeabilities 54 degree celcius 54 flexural strength 54 nT 54 Deg C 54 kGy 53 electron mobility 53 ° C. 53 ± #.#dB 53 kelvins 53 absorption coefficient 53 Â ± 53 electrically insulating 53 oscillation frequency 53 geosynchronous orbit reached 53 femtogram 53 Min temp 53 post perovskite 53 1ppm 53 compressive stress 53 conductivity 53 isostatic 53 uniaxial 53 ohmic 53 -# º F [002] 53 bandgap 53 degreesC 53 tensile modulus 53 hydrophobicity 53 SiO 53 thermal conductance 53 TiO 2 53 #μ 53 #um [002] 53 viscosities 53 #bar [002] 53  m 53 MWNT 53 #mV V 53 º C 53 temperature gradient 53 MΩ 53 deg F 53 arcmin 53 hydrolytic stability 53 electron scattering 53 ZrO 2 52 Thermal conductivity 52 milliohm 52 temperature coefficient 52 resonance frequency 52 austenitic stainless steels 52 poly L lysine 52 irradiance 52 Celsius #.#F 52 Fig. 3b 52 ° Fahrenheit 52 velocity dispersion 52 ppm boron 52 millivolts 52 kelvin -# 52 melt viscosity 52 √ Hz 52 #ppm Cu 52 coercivity 52 hexagonal lattice 52 fig. S2 52 +# deg C [001] 52 newtons 52 ZnS 52 AlGaAs 52 InAs 52 microns 52 lanthanum La 52 5μm 52 ml min 52 #degreesC 52 dipolar 52 degreesF 52 nm wavelengths 52 ° C ambient temperature 52 conductivities 52 ° C/# ° F [001] 52 mV V 52 mW/cm2 52 micrometer scale 52 ° C/# 52 dielectric constants 52 oxide thickness 52 C0G 52 tensile strain 52 nanomolar 52 Halifax Weather Overcast 52 1kHz 52 wafer thickness 52 ˚ C 52 -# ° C. [002] 52 CaCO3 52 Tensile strength 52 flexural modulus 52 magnetic permeability 52 -# º C [002] 52 moisture absorption 52 transmissivity 52 #C #F [003] 51 ppmv 51 crystallites 51 dB insertion loss 51 ductility 51 compressive load 51 ˚ F. 51 thermal diffusivity 51 degrees fahrenheit 51 manganite 51 capacitance values 51 SiO2 51 metallicity 51 chromium alloy 51 ° sec 51 crystallinity 51 birefringence 51 -# degrees Centigrade 51 -# ° [002] 51 ˚ F 51 rheological 51 elastic moduli 51 arcsecond 51 dielectric strength 51 APTIV film 51 pyroxene 51 pearlite 51 σ 51 #mmHg [001] 51 desorption 51 friction coefficients 51 austenite 51 Min Temp #.# 51 microampere 51 microbolometers 51 mAh g 51 +# oC 51 m z 51 cordierite 51 enthalpy 51 thermodynamic properties 51 interfacial tension 51 heavy fermion 51 electrical conductivity 51 cm ³ 51 g cc 51 μg ml 51 photoemission 51 microcavity 51 thermal EMF 51 velocities 51 Wh kg 51 NMR spectra 51 +# deg C [002] 51 electron density 51 linewidth 51 flowrates 51 thermal equilibrium 51 compressive strengths 51 high temperature HPHT 51 adsorption isotherms 51 zirconium oxide 51 Fig. 1A 51 #psi [001] 51 kT 51 Bulk density 51 aragonite 51 arcsec 51 #ppb gold 51 μW 51 compressive strength 51 electrical conductance 51 bandgaps 51 cementite 51 Inconel 51 ferroelectricity 50 differential scanning calorimetry 50 psi 50 mg kg -1 50 interparticle 50 gate electrode 50 #μm [001] 50 reflow temperatures 50 optically transparent 50 #.#μm [001] 50 2ppm 50 2nm 50 #.degree [001] 50 sphericity 50 silicate rocks 50 weldability 50 radioactivity intersected 50 anisotropy 50 magnetic excitations 50 + #.#mm 50 threshold voltages 50  C 50 pulmonary arterial 50 polycrystalline 50 #oF [002] 50 friction coefficient 50 μm wavelength 50 vanadium oxide 50 volts mil 50 adsorbate 50 fluorescence intensity 50 longwave radiation 50 CMOS transistors 50 z ~ 50 nM 50 carbides 50 fluorescence emission 50 tropospheric 50 -# ° F [001] 50 mΩ 50 elastic deformation 50 2dB 50 chemical inertness 50 nonmagnetic 50 1kV 50 basaltic rocks 50 nm wavelength 50 cm2 50 helicity 50 2oC 50 micromolar 50 MnO 50 Nd 50 picoseconds 50 friability 50 mU liter 50 magnetostrictive 50 absorption spectra 50 plagioclase 50 ytterbium 50 yttrium oxide 50 breakdown voltages 50 refractive indices 50 nm excitation 50 nanoliters 50 electron pairs 50 fused silica 50 IR wavelengths 50 millimeter diameter 50 coarser grained 50 anneal 50 Fig. 2A 50 CAIs 50 stoichiometry 50 vibrational modes 50 millimeter mm 50 austenitic stainless steel 50 #deg C 50 ppm U 50 atmospheric CO2 concentrations 50 recrystallization 50 absorbance 50 +# ° F. 50 emission wavelength 50 ultrahigh vacuum 50 particle sizes 50 conventional superconductors 50 superconduct 49 ° Celsius 49 zeolite membranes 49 transmittance 49 accuracy repeatability 49 -# Celsius [001] 49 QDs 49 m/s2 49 nH 49 t/m3 49 magnetic susceptibility 49 ionic conductivity 49 #um [001] 49 crustal rocks 49 μH 49 ferritic 49 x 4mm 49 #Â ° F [002] 49 cuprate superconductors 49 angstroms 49 magnetisation 49 ZnSe 49 carbon steels 49 MgO 49 º -# º 49 -# ° Celsius [001] 49 INR #,#-#,# mt 49 cm sec 49 4mA 49 º C. 49 ° C warmer 49 -1 ^ 49 Kelvins 49 ppm ° C 49 paramagnetic 49 -# ˚ C 49 circular dichroism 49 mEq 49 dielectrics 49 5nm 49 fluxes 49 phyllic alteration 49 pHs 49 θ 49 #lm [002] 49 dB SPL 49 viscosity 49 pyrite marcasite 49 mmol 49 mesoporous 49 ferromagnetic 49 Max Temp 49 +# degC [002] 49 homopolymer 49 μl 49 picometers 49 ppm deg 49 bending stiffness 49 degrees Farenheit 49 m asl 49 x #.#cm [001] 49 mmHg systolic 49 asparagine containing food 49 hydrocarbon saturation 49 nanometers nanometer 49 ° C ambient 49 FWHM 49 limestone xenoliths 49 #ppm U 49 thermally activated 49 antiferromagnetic 49 graphite whiskers 49 asthenosphere 49 #ppb [001] 49 temperature gradients 49 purities 49 dielectric layer 49 hydrolysis resistance 49 microg 49 Ncm 49 V dc 49 visible wavelengths 49 SQUIDs 49 titania 49 degrees Fahrenheit 49 tetragonal 49 kΩ 49 MWCNTs 49 oxyhemoglobin 49 pulse durations 49 deg Celsius 49 equilibration 49 ° С 49 wetted parts 49 atomic lattice 49 platinum Pt 49 ε 49 anisotropic 49 salinities 49 cm H2O 49 micron diameter 49 MWCNT 49 hysteresis 49 boron oxide 49 MIL HDBK #F 49 diffusivity 49 trimers 49 ARPES 49 arcseconds 49 #Â º C 49 electron doped 49 #.#in [004] 49 ferromagnet 49 +# degreesC 49 palladium Pd 49 picomolar 49 Stanyl 49 CaCO 3 49 magnetoresistance 49 aspheres 49 atmospheric CO 49 m3/hr 49 beamwidth 49 ppbv 49 xenoliths 49 Ti 4V 49 partially oxidized 49 refractive index 49 pMOS 49 cuprate 49 #Ω [002] 49 neodymium Nd 49 porosities 49 ferritic grades 49 #mΩ [001] 48 compressive strain 48 light transmittance 48 WxDxH 48 HEMTs 48 dielectric layers 48 Soil pH 48 boron nitride 48 resonant frequency 48 PEDOT PSS 48 kinematic viscosity 48 kg hr 48 #pF [001] 48 ultrahigh purity 48 #ppb Au [002] 48 mm ² 48 input capacitance 48 airflows 48 Supplementary Fig 48 AlGaN 48 Nd YAG 48 CaO 48 Porosity 48 tensile strength 48 molybdenum disulfide 48 cam lobe 48 #.degree [002] 48 graphitic carbon 48 nanometers thick 48 austenitic grades 48 YBCO 48 x 2mm 48 χ 48 output voltages ranging 48 deg C. 48 dBFS 48 femtoseconds 48 thermo mechanical 48 dielectric materials 48 ° -# ° [001] 48 yr -1 48 quantum oscillations 48 λ 48 gDNA 48 surface roughness 48 degrees celcius 48 -3 dB 48 photoluminescence 48 barium titanate 48 ± #ppm [001] 48 ohms 48 emissivity 48 liquid chromatography HPLC 48 millibars 48 Fig. 2a 48 #μF [001] 48 wafer diameters 48 ZXLD# 48 CdSe 48 colloidal crystals 48 fA 48 sorption 48 alloyed steel 48 x 7mm 48 fig. S1 48 Intraocular pressure 48 multicrystalline cells 48 milliampere 48 ps nm 48 isotherms 48 g t Ta 48 #.#uF 48 permittivity 48 g l 48 mV g 48 drilled northwards 48 ceramic composites 48 subwavelength 48 #ppb [003] 48 nonlinearity 48 magnetic flux 48 mm Hg millimeters 48 laser scanning confocal 48 triaxial 48 μg g 48 mig welding 48 phonon 48 total solar irradiance 48 Raman spectra 48 chemical reactivity 48 photon absorption 48 #.#um [001] 48 #x# ^ 48 Mostly Cloudy Currently 48 bismuth telluride 48 ultimate tensile strength 48 borosilicate 48 PaO 2 48 alloying elements 48 bending rigidity 48 magnetocaloric effect 48 #Vrms 48 wafer uniformity 48 micrometer 48 tph 48 ceria 48 ppm arsenic 48 dielectric permittivity 48 #C #C [001] 48 #ppm ° C 48 magnetic dipole 48 P#O# 48 Fe Mg 48 #Vdc [003] 48 lithosphere 48 frictional heating 48 inductance values 48 +# ° C [002] 48 GHG concentrations 48 phototransistors 48 intermetallic compounds 48 2mm x 48 + -1 48 freezeproof 48 austenitic 48 microstructures 48 arcminutes 48 ppm ° C. 48 hemoglobin Hb 48 silicate dust 48 #x# mm [003] 48 photomultiplier 48 #.#kV [001] 48 chromium chloride 48 μg mL 48 Earth radii 48 durometer 48 cup unsalted butter 48 l h 48 osmotic pressure 48 metastable 48 thermal gradient 48 capacitances 48 microlitre 48 emittance 48 cm3 48 swing adsorption 48 aramid fibers 48 foliation 48 nanometric 48 mM NaCl 48 fpm 48 #psi [003] 48 mol L 48 ppm uranium 48 adiabatic 48  48 copper oxide superconductors 48 electron volt 48 bilayer graphene 48 milligauss 48 polyamides 48 ° F/# ° C [001] 48 mV 48 electronvolts 48 bilayer 48 IP geophysical anomaly 48 luminous flux 48 graphene layers 48 dimensional tolerances 48 diameters 48 flexure 48 chromatographic separations 48 nanomesh 48 moldability 47 nanoribbon 47 spherical particles 47 micrograms mL 47 niobium titanium 47 microfarads 47 δ 47 micrometres 47 nanobelts 47 +# ° F 47 passband 47 silicon nanowire 47 osmolality 47 ultraviolet wavelength 47 zero valent iron 47 LPCVD 47 fluence 47 biotite rich 47 kDa 47 microlitres 47 aqueous dispersion 47 -# ° Fahrenheit 47 anatase 47 Degrees Celsius 47 ionise 47 crystalline Si 47 #.#Ω 47 flowrate 47 Fig. 2b 47 P3HT 47 magnetization 47 Supplementary Table 47 ° F 47 superlattice 47 frequency harmonics 47 hydrides 47 sq cm 47 kBq 47 boron carbide 47 +# degC [001] 47 #.#pF 47 degrees centigrade 47 ppm CO2 47 graphene sheet 47 combustor 47 sub micron 47 PBGA package 47 Amperes 47 nMOS 47 TPEs 47 U Th 47 meteoritic material 47 exciton 47 zinc selenide 47 mOhm 47 retained austenite 47 Wm -2 47 ferromagnetism 47 magnesium hydride 47 HQ diameter 47 IR spectra 47 #.#dB [003] 47 micrometers thick 47 greenschist 47 -# degrees centigrade [001] 47 olivine rich 47 g/cm3 47 GaN wafers 47 homopolymers 47 indium gallium 47 Pressurex 47 z = 47 silicon atoms 47 centistokes 47 photomultiplier tubes 47 manganese oxide 47 5kV 47 mA output 47 Fig. 2B 47 resonators 47 electron pairing 47 ^ sup 47 GtC 47 #x#mm package 47 nitride layer 47 cellularity 47 lbf 47 cosmic ray flux 47 gradient 47 +# degrees Celsius [001] 47 recrystallized 47 thermally conductive 47 mmHg diastolic 47 desorbed 47 #psi [002] 47 silica SiO2 47 orbitals 47 Si substrate 47 thermodynamic equilibrium 47 frequency transducers 47 #mm x #.#mm [001] 47 Cu interconnects 47 serum TSH 47 rotational torque 47 macrocrystic 47 ^ sup -1 47 interfacial 47 YAG lasers 47 quasiparticle 47 #mm #in 47 solar nebula 47 dewpoint temperature 47 ug l 47 tensile stresses 47 neutral pH 47 sulphide stringers 47 luminosities 47 barium carbonate 47 #m/min [002] 47 shaft diameters 47 spinel 47 photonic bandgap 47 thermally induced 47 mG 47 C/# [003] 47 bosonic 47 3mm x 47 volumetric efficiency 47 MSOP packages 47 #MSPS 47 samarium 47 mm × 47 GaN layer 47 Bragg grating 47 resistivity 47 cubic boron nitride 47 LiNbO3 47 fermion 47 degrees Centigrade 47 mcg mL 47 exotherm 47 thermal decomposition 47 UL#V 0 47 Raman scattering 47 biaxial 47 -# deg C 47 ppm Cu 47 mrad 47 antineutrinos 47 μg liter 47 disseminated pyrrhotite 47 nanometers 47 isotope ratio 47 #x#x#mm [001] 47 k dielectric 47 mm dia 47 Athabasca sandstone 47 corrugation 47 ug mL 47 microtubes 47 X ray wavelengths 47 nonequilibrium 47 solar reflectance 47 orbital eccentricity 47 ppm Mo 47 mmol l 47 Meanwhile preheat oven 47 toroidal 47 Degrees Fahrenheit 47 #ppm [002] 47 silicon crystals 47 micrometres thick 47 -# degrees Celcius 47 illuminance 47 galactic disk 47 ρ 47 weakly magnetic 47 micron thickness 47 isotopic variations 47 micron pixels 47 pg mL 47 nanometers billionths 47 iron pnictides 47 m ^ sup 47 #OHD 47 Conductive Polymer 47 pyrite altered 47 lightfastness 47 mN 47 polaritons 47 microcavities 47 weakly interacting 47 X ray pulses 47 ug ml 47 redshifts 47 scfm 47 fig. S3 47 C#H# 47 magnetite alteration 47 semiconductive 47 annealed 47 γ 47 Schottky barrier 47 5mm x 6mm 47 shear mixers 47 carbon dioxide concentrations 47 elemental abundances 47 BJTs 47 angular displacement 47 ductile 47 millimeters mm 47 granitoids 46 #rpm [001] 46 undoped 46 pin SSOP package 46 hardnesses 46 pnictides 46 adsorptive 46 submillimeter 46 Vdc input 46 voltage coefficient 46 cerium Ce 46 diffusion coefficients 46 g m² 46 photolysis 46 photocurrent 46 #-#,# mm 46 output capacitance 46 μg L 46 reflow profiles 46 deg 46 lamella 46 airglow 46 #.#oC [001] 46 Fe#O# 46 #.#mm diameter [001] 46 anodic 46 electron ion 46 hyperfine 46 -# º [001] 46 immunostaining 46 Eq. 46 gate dielectrics 46 Perkinamine 46 2kV 46 ambient temperatures 46 excitonic 46 #cm [001] 46 degrees above preindustrial 46 Coulomb blockade 46 x 5mm 46 μF 46 kN 46 microwatt 46 Fig. 4b 46 absorber layers 46 dielectric 46 μmol L 46 varying thicknesses 46 #Â ° C 46 thermal conduction 46 polyphenylsulfone 46 dielectric withstanding voltage 46 numerical aperture 46 circumstellar 46 μL 46 eutectic alloy 46 resists corrosion 46 #oC [002] 46 mEq L 46 micron wavelength 46 m3 h 46 #μF [002] 46 epoxides 46 mW cm 2 46 PVC CPVC 46 UV absorbance 46 degrees Celcius 46 TDFN packages 46 #-# ppm 46 τ 46 ° F. 46 -# degreesC 46 aluminum nitride 46 ferrite core 46 Capacitance 46 deg C 46 scf t 46 ± #ppm [002] 46 isotropic 46 #mohm 46 extrudate 46 processability 46 thermodynamically 46 monodisperse 46 heat indicies 46 degree centigrade 46 helium nuclei 46 nanoholes 46 #m@#.# % [002] 46 transconductance 46 -# dBm [001] 46 gravitational acceleration 46 solar minima 46 pore sizes 46 GaP 46 #x#x# cm 46 agarose 46 leachability 46 Texoma Elevation 46 degree celsius

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