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(Click for frequent words.) 73 degC 70 ° C 69 #oC [001] 69 #.degree [002] 69 #degC [002] 69 #.degree [001] 69 degreesF 68 ° Fahrenheit 68 deg F 67 º C 67 Halifax Weather Overcast 67 -# ° [002] 66 º Celsius 66 Deg C 66 #F #C [001] 66 2oC 66 kelvin 66 degreesC 66 º Fahrenheit 66 Min temp 65 ˚ C. 65 ℃ 65 degree Centigrade 65 Â ° C. 65 Min Temp #.# 65 -4 ° 65 ppmv 65 #Â ° C 65 #degreesC 65 -# ° F [001] 65 ˚ F. 65 #oF [001] 65 -# º C [002] 64 W/cm2 64 degF 64 ° C ambient temperature 64 C 64 #.#oC [001] 64 isotherm 64 Meanwhile preheat oven 63 ˚ F 63 mK 63 -# degrees Centigrade 63 Mostly Cloudy Currently 63 W mK 63 #Â ° F [002] 63 ° C. 63 degrees farenheit 63 yr -1 62 #.#C [004] 62 -# degreesC 62 ppm CO2 62 Max Temp 62 +# º C [002] 62 #.#C above 62 ˚ C 62 ° -# ° [002] 62 ° C/# ° F [001] 62 torr 62 62 ° C warmer 62 +# degreesC 62 ° F 62 -#.# ° C 62 ohm cm 62 W/m2 62 kT 62 degrees celcius 62 ¢ ª 62 CaCO 3 61 cm -2 61 μmol 61 +# ° F. 61 1ppm 61 ° F -# ° 61 +# deg C [001] 61 0C 61 -# º F [002] 61 +# deg C [002] 61 -# ° C. [002] 61 #Â ° [002] 61 cm -3 61 #deg C 61 degree centigrade 61 ^ sup -1 61 º C. 61 Â ± 61 #Â º C 61 #.#mA [002] 61 celcius 61 degrees fahrenheit 61 mu m 60 ° -# ° [001] 60 Celsius #.#F 60 cP 60 #C #C [001] 60 ⁰ C 60 degree celcius 60 microvolts 60 #.#C [003] 60 degrees Centigrade 60 +# º C [001] 60 Kelvin -# 60 +# ° C [002] 60 -# ˚ C 60 -# degrees Celsius [001] 60 Wm -2 60 μV 60 Eq. 60 ± #ppm [001] 60 kg/m3 60 #.#deg [001] 60 Celcius 60 mT 60 -# ° C [001] 60 ° C/# 60 Reheat leftovers 59 -# º [002] 59 deg Celsius 59 +# degC [001] 59 #ppm [002] 59 Degrees Celsius 59 ° C ambient 59 mAh g 59 #.#C #.#C 59 fahrenheit 59 +# ° F 59 thermal EMF 59 ° Celsius 59 -# º [001] 59 cm ^ sup 59 C/# [003] 59 Reduce oven 59 #oF [002] 59 -# deg [002] 59 +# oC 59 Å -1 59 ha -1 59 #C #F [003] 59 degrees Farenheit 59 degrees Celcius 59 μW 58 -# Celsius [001] 58 #oC [002] 58 Degrees Fahrenheit 58 +5 +# 58 -# ° Celsius [001] 58 annealing temperature 58 ° F/# ° C [001] 58 +# degC [002] 58 kelvins 58 5ppm 58 #bar [001] 58 ° C ± 58 #ppm U 58 kcal mol 58 PREHEAT oven 58 H#SO# 58 temprature 58 kg hr 58 hPa 58 Î ¼ 58 INR #,#-#,# mt 58 centigrade 58 τ 58 mol 58 de grees 58 -# deg C 58 -# ˚ 58 shear modulus 57 microampere 57 SiO 2 57 #ppm Cu 57 -# deg [001] 57 +# º 57 º -# º 57 Mg ha 57 degrees centigrade 57 ppm ° C 57 dewpoint temperature 57 atmospheric CO 57 degress Celsius 57 kelvin -# 57 ms -1 57 ambient temperature 57 Ncm 57 -5 degrees Celsius 57 ZrO 2 57 calcium Ca 57 #lm [002] 57 -# degrees centigrade [002] 57 +8 +# 57 Sparklers burn 57 gigapascals 57 #.#oC [002] 57 ° C/# ° F [002] 57 Centigrade 57 degree Celcius 57 cm ² 57 sulfur dioxide SO 57 ° С 57 centistokes 57 GtC 57 2ppm 57 #f #c 57 θ 57 #.#C #.#F [004] 56 -7 ° C 56 mmol 56 deg C. 56 +# degrees Celsius [001] 56 #degrees [002] 56 anthropogenic carbon dioxide 56 g/m3 56 #.#C #.#F [003] 56 Method Preheat oven 56 √ Hz 56 P#O# 56 #.#deg [002] 56 dielectric strength 56 deg C 56 mU liter 56 molar ratio 56 PSIG 56 #.#F [001] 56 Terbium Tb 56 GOA WEATHER Temp 56 meV 56 ppbv 56 chromium chloride 56 Fig. 4A 56 mol L 56 cadmium Cd 56 NO3 56 #ppb [003] 56 Mg Ca 56 piotr.skolimowski @ thomson.com 56 psia 56 mH 56 -# degrees Fahrenheit [002] 56 +# degrees Centigrade 56 #.#-#.# degrees Fahrenheit [002] 56 -5 ° 56 m ^ sup 56 farenheit 56 4mA 56 #Â º [002] 56 typ 56 ρ 56 CaCO3 56 ppm deg 56 ps nm 56 endothermic 56 isotope fractionation 56 MgO 56 +7 +# 56 output voltages ranging 56 ⁰ 56 #lm [001] 56 atmospheric CO2 concentrations 56 ammonia NH3 56 #Vdc [003] 55 #Â º [001] 55 Btu hr 55 kΩ 55 -8 ° C 55 cosmic ray flux 55 #.#C warmer 55 ALT elevation 55 +# ° C [001] 55 Fig. 2A 55 glacial interglacial cycles 55 ± #ppm [002] 55 -# degrees Celcius 55 ug l 55 -9 -# 55 +3 +5 C 55 δ 55 Thermal conductivity 55 χ 55 CaO 55 hafnium oxide 55 +# deg [002] 55 temperature gradients 55 platinum Pt 55 Fig. 2b 55 compressive stress 55 μS cm 55 deg 55 #ppb Au [002] 55 temperature coefficients 55 kPa 55 ml min 55 Kelvins 55 partially oxidized 55 º F 55 g cm 55 voltage coefficient 55 asparagine containing food 55 GOA WEATHER Max 55 #,# bis 55 #.#ppm [001] 55 mV V 55 scfm 55 -1 ^ 55 thermal decomposition 55 isotherms 55 +# deg C. 55 μm diameter 55 #ppm ° C 55 ° F. 55 fig. S2 55 propanol 55 -1 -3 55 +1 +3 55 μH 55 forcings 55 ° ° 55 proton conductivity 55 #.#F [002] 55 Kcal 55 BTU hr 55 #deg [001] 55 neodymium Nd 55 +# Vdc 55 pawel.sobczak @ thomson.com 55 ε 55 dielectric permittivity 55 η 54 #.#nm [002] 54 ° C. Brush 54 g l 54 millidarcies 54 ω 54 #mV V 54 Degree Celsius 54 respired 54 Mg Fe 54 -# ° Fahrenheit 54 mM NaCl 54 MeV 54 GPa 54 MWth 54 MΩ 54 ppm ° C. 54 1μm 54 magnetic stirrer 54 cementite 54 mA output 54 ℓ 54 radiative forcing 54 dB insertion loss 54 methyl chloroform 54 km3 54 -4 ° C 54 oven preheated 54 #deg [002] 54 kcal kg 54 anthropogenic emissions 54 #.#VDC 54 Fig. 1A 54 -5 -6 54 luminous flux 54 temperature coefficient 54 tbsp butter 54 Global Warming Potential GWP 54 5kV 54 C0G 54 input capacitance 54 #C #.#F [001] 54 1kHz 54 stoichiometry 54 cm ³ 54 #ppb [001] 54 derate 54 +5 +7 C 54 ° F/# ° C [002] 54 chromium oxide 54 keV 54 Isoprene 54 #.# mb 54 mEq 54 ppm Zn 54 acidity pH 54 #Ω [002] 54 martensitic 54 degassed 54 NaOH 54 #kA [001] 54 yttrium oxide 54 thermal gradients 54 +# deg [001] 54 SiO 54 BTU lb 54 σ 54 kBq 54 NH4 + 54 denaturation 54 #F #F [002] 54 AFUE 54 diopside 54 chlorine monoxide 54 THENCE NORTH 54 Fig. 3b 54 #.#-#.# [011] 54 l h 54 reaction kinetics 54 adrian.krajewski @ thomson.com 54 #Â ° F [001] 54 calcium oxide 54 MPa 54 micromolar 54 thermal conductivities 53 #x# ^ 53 #pF [001] 53 #C/#F/Gas 53 +# degrees Celsius [002] 53 adsorption isotherms 53 mV 53 capacitance values 53 -4 ° F 53 +2 +7 C 53 μF 53 CO2 eq 53 tempera tures 53 ν 53 V dc 53 cup unsalted butter 53 thermal conductance 53 ug L 53 enthalpy 53 -5 ° C 53 drilled northwards 53 thermal equilibrium 53 #ppm [001] 53 #mΩ [001] 53 ratiometric 53 reflow temperatures 53 #'C 53 octyl 53 limestone xenoliths 53 X#.# [003] 53 #μ 53 microg 53 ° C. Place 53 -# ° C. [001] 53 #.#N [002] 53 m z 53 -2 ° C 53 Relative humidity 53 #.#C #.#F [002] 53 offgas 53 millivolts 53 kg -1 53 #Â ° C. 53 ° sec 53 +2 +2 53 +2 +4 C 53 kGy 53 2C #F 53 #.#C [002] 53 equilibration 53 #degC [001] 53 methane CH4 53 absorption coefficient 53 +9 +# 53 micromol 53 osmolality 53 cyclohexane 53 degrees Celsius #.#F [002] 53 1mA 53 Brevoxyl R 53 #.#W [003] 53 Input voltage 53 kyr 53 Btuh 53 #.#V [002] 53 flowrates 53 Fig. 1c 53 #pF [002] 53 #.#m #.#m #.#m [003] 53 pika habitat 53 -2 -7 C 53 ° C. Lightly grease 53 nm excitation 53 thermodynamic properties 53 #.#mg L [001] 53 conventional superconductors 53 -# º F [001] 53 kilopascals 53 С 53 μg liter 53 mEq L 53 MMscf 53 equiv 53 pearlite 53 atmospheric CO2 concentration 53 alkenes 53 #.#F [004] 53 Supplementary Fig 53 austenitic stainless steels 53 argc 53 cSt 53 integral nonlinearity INL 53 tph 53 temperature gradient 53 μg d 53 Fig. 2a 53 #.#uF 53 #.#f [002] 53 purities 53 vibrational modes 53 degrees Fahrenheit 53 diene 53 milliohm 52 PaO 2 52 -# mV [001] 52 nonreactive 52 mid Pliocene 52 fluxes 52 silicate rocks 52 SSTs 52 resonance frequency 52 mercury Hg 52 +1 +6 52 mW/cm2 52 m3/hr 52 epoxides 52 pentane 52 2degC 52 Gcal h 52 CO2 CH4 52 Wh kg 52 heat indicies 52 degrees Celsius 52 interglacials 52 flowrate 52 megapascals 52 microlitres 52 memset 52 + -1 52 gaseous pollutants 52 preheater 52 transmissivity 52 uM 52 MIL HDBK #F 52 Fig. 1b 52 aspartate aminotransferase 52 silica SiO2 52 ASTM E# [002] 52 degress 52 amperometric 52 #Vdc input 52 Fig. 2c 52 μl 52 copper oxide superconductors 52 -# º C. 52 #.#Ω 52 ^ ^ sup 52 pjg 52 0g 52 Localized mild hyperthermia 52 PO4 52 lanthanum La 52 soluble Cu 52 SiO2 52 Fe Mg 52 ASTM A# 52 0F 52 t/m3 52 Liquid helium 52 arcmin 52 ppm Pb 52 psig 52 mu g 52 diacetate 52 R #a refrigerant 52 martensite 52 FeO 52 #.#μF 52 pyrope garnets 52 dewpoint 52 reduced graphene oxide 52 milliampere 52 Coulomb blockade 52 #.#kW [002] 52 +# ° C. [001] 52 microamp 52 gph 52 -3 -4 52 Serve chilled 52 Roman Warm Period 52 μL 52 solder reflow 52 z = 52 fig. S3 52 tbsp olive oil 52 nmol 52 Biochemical Oxygen Demand 52 #μg [001] 52 +# º C. 52 Ù 52 Input Voltage 52 radians 52 #C/gas mark 52 Nm3 52 calorific values 52 ambient temperatures 52 pmol L 52 minus #degC 52 +3 +8 C 52 Al#O# 52 Figs. 52 degree Celsius 52 melt viscosity 52 3v 52 ml kg 52 zinc Zn 52 biphenyl 52 homopolymer 52 #.#pF 52 anthropogenic CO 52 metastable 52 6C #F 52 airflows 52 TDFN packages 52 patrick.graham @ thomson.com 52 +6 +# 52 convection cooling 52 mbar 52 g t Ta 52 wind chill hovered 52 cuprate 52 min -1 52 Sn Pb 52 #.#-# V 52 #ppm Mo 52 conductivities 52 magnon 52 m³ h 52 calcined 52 -5 ° C. 52 pyridyl 52 NaCN 52 #.#t [003] 52 #μF [002] 52 Supplementary Table 52 2C #.#F 52 lb hr 52 Shutter speeds 52 m/s2 52 +# VDC 52 fA 52 MWCNTs 52 Sr Ca 52 heptane 51 uV 51 THENCE SOUTH 51 nH 51 UL#V 0 51 temperature 51 pyrene 51 advection 51 #OHD 51 -1 ° C 51 #.#in [004] 51 axial tilt 51 SCFM 51 -# Fahrenheit [002] 51 longwave radiation 51 Fig. 4c 51 ± 5ppm 51 Liquid nitrogen 51 #W halogen 51 exothermic reaction 51 dipole moment 51 Voltages 51 piotr.skolimowski @ thomsonreuters.com 51 mM 51 1ns 51 kA 51 mΩ 51 #us [001] 51 photolysis 51 lowermost mantle 51 cresol 51 #V ac 51 deglaciation 51 USC § § #e 51 degree celsius 51 #μA [001] 51 Fluorinated 51 Bulk density 51 sodium chloride NaCl 51 serum magnesium 51 8mm diameter 51 #ksps 51 dipolar 51 Fig. 3B 51 holmium 51 elastic modulus 51 viscosities 51 Fig. 2C 51 Quiescent current 51 dielectric constant 51 alkane 51 abundant quartz veining 51 isomeric 51 butene 51 -6 ° C 51 unreacted 51 benthic foraminifera 51 μg g 51 #μF [001] 51 º F oven 51 acid leached 51 interfacial tension 51 μg ml 51 μmol L 51 Antarctic stratosphere 51 #.#m #.#m [004] 51 = strlen 51 #m@#.# % [002] 51 kWe 51 trioxide 51 cryogenic temperatures 51 Ozone O3 51 #Vac 51 #Ã Â [001] 51 #ppb gold 51 #-#,# mm 51 nM 51 sorption 51 amu 51 Fig. 4B 51 MWNT 51 #mV [002] 51 TEMPERATURE 51 molten salts 51 Nitrogen Oxides 51 Zr 51 #C oven 51 degs 51 atmospheric CO2 51 ìg 51 microamps 51 austenite 51 Medieval Warming Period 51 megohms 51 tempera ture 51 pyrolytic 51 nMOS 51 dewpoints 51 ° F oven 51 Ð Ð 51 V ac 51 jana.mlcochova @ thomson.com 51 degrees Celsius #.#F [001] 51 holes BD# 51 ultrahigh purity 51 nT 51 voltage divider 51 ng g 51 Model LTC# 51 #um [002] 51 moistures 51 cm2 51 ° C. Combine 51 ppm boron 51 + sizeof 51 mg kg -1 51 % Confidence Interval 51 fluid viscosity 51 Seasonic X 51 hypercapnia 51 fluorescence emission 51 cosmic ray intensity 51 isoprene 51 fermion 51 SST anomalies 51 anhydrite 51 celsius 51 -# degrees celsius 51 copper oxides 51 YEN EJ 51 Total Harmonic Distortion 51 turbine inlet 51 neodymium praseodymium 51 tropical troposphere 51 0C #F 51 API 5L 51 SeaLINK 51 5μm 51 resuspended 51 mOhm 51 tetragonal 51 Pt# 51 Localized mild hyperthermia #.#-# 51 output voltage 51 cm -1 51 electrical resistivity 51 +2- 51 Hastelloy 51 thermal gradient 51 #cm [001] 51 mm ^ sup 51 poly L lysine 51 pyrite pyrrhotite 51 superlattice 51 unsigned int 51 magnetic permeability 51 Sulphur dioxide 51 Amperes 51 Nd YAG 51 Krishan Francis CP 51 bq 51 g cc 51 fig. S6 51 nitrous oxides NOx 51 Technetium 51 gigatonne 51 mg/Nm3 50 exotherm 50 ammonium sulphate 50 lanthanum oxide 50 -# ° Celsius [002] 50 Bake uncovered 50 carbon dioxide concentrations 50 Au Pt 50 5mA 50 adsorbate 50 SO2 emission 50 tropospheric 50 Sodium silicate 50 CF4 50 ˚ 50 nitrate nitrite 50 ohmic 50 atmospheric CO2 levels 50 vanadium oxide 50 sequestering CO2 50 La Ce Pr 50 caustic soda sodium hydroxide 50 electrically insulating 50 degassing 50 MMBD 50 N acetyl 50 5C #F 50 -2 +3 50 Ammonia NH3 50 MSOP packages 50 pCi l 50 #mln ton 50 ksi 50 hectopascals 50 º F. 50 -3 dB 50 thermally activated 50 output capacitance 50 phototransistor 50 recrystallization 50 pin SOIC packages 50 #S #W 50 ethene 50 mg/# g 50 1Mt 50 geothermal gradient 50 κ 50 Medieval Warm Period MWP 50 upflow 50 anthracene 50 twd ccg 50 #F #.#C [001] 50 respirable particulate matter 50 CO3 50 mso footer margin 50 Mbd 50 intermetallic compounds 50 pF 50 mcg mL 50 dichlorobenzene 50 Yb 50 #.#o [001] 50 terrestrial biosphere 50 #.#degC [001] 50 poleward 50 -# ° F [002] 50 μM 50 austenitic 50 thermocouples 50 COOH 50 concentration Cmax 50 angular displacement 50 μg mL 50 #,# dimethyl 50 #mA [003] 50 tensile stress 50 Weather Cloudy 50 microwatt 50 Hum Mol Genet 50 hydroxyphenyl 50 thermodynamically 50 ^ F FDG 50 austenitic stainless steel 50 Phosphoric acid 50 Europium 50 micromoles 50 midlatitudes 50 kinematic viscosity 50 photocurrent 50 mg l 50 Lanthanum La 50 surface temperatures SSTs 50 Brent Dated 50 nanomolar 50 #m# h 50 Fe Ni 50 gelation 50 degrees Fahrenheit warmer 50 timebase 50 #VAC [002] 50 #.#W [004] 50 0V 50 Russo FN Riffic 50 moisture absorption 50 absorption spectra 50 Weather Partly cloudy 50 slightly acidic pH 50 -# ° [001] 50 GFlops 50 Ionized 50 Vdc 50 #nm #nm [002] 50 ^ sub 50 + #.#mm 50 ± #V [002] 50 #VDC [002] 50 F FLT 50 #C [004] 50 wetted parts 50 perovskite 50 MnO 50 CdSe 50 mN 50 #kn 50 methane ethane 50 solar minima 50 ° API 50 mL kg 50 Thermocouples 50 jrw ccg 50 AlN 50 methoxy 50 WEATHER SUMMARY 50 CuO 50 ° 50 fluorescence intensity 50 SAC# 50 #.#V #.#V [001] 50 formamide 50 wirewound resistors 50 IC# = 50 #μA [002] 50 J Physiol 50 tablespoons unsalted butter 50 dc voltage 50 ASTM B# 50 geosynchronous orbit reached 50 = null & 50 Heat wok 50 #-# mA 50 #uA [001] 50 Gcal 50 5V input 50 electron doped 50 OXIDE 50 #.#mm #.#in 50 TiO 2 50 hypogene mineralization 50 PER CENT AND 50 jason.hovet @ thomsonreuters.com 50 1pp 50 sulfate aerosol 50 #etch# sparc.deb Size/MD5 checksum # 50 Hg 50 #V dc [002] 50 -# degrees Fahrenheit [001] 50 magnesium Mg 50 polar latitudes 50 serum homocysteine 50 #.#mV 50 μg m 50 maxima 50 preheats 50 nonstick saucepan 50 +4 +6 C 50 post perovskite 50 +0 +0 50 feldspars