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Changes in the energy of the valence or outer shell electronsresultin the atomic lines used in emission spectroscopy
the first elementdiscoveredvia emission spectroscopy
to tellis composedof using spectroscopy
85 % of what we know aboutwas discoveredusing spectroscopy
85 % of what we know about the universewas discoveredusing spectroscopy
also(passive) is ... influencedFluorescence spectroscopy
The strong green emission lines of the Cat 's Eye Nebuladiscoveredusing spectroscopy
the problemscan causefluorescence spectroscopy
the phenomena of second order diffraction ... the problemscan causein fluorescence spectroscopy
graphene alone(passive) caused byTHz emission
the Indian physicist Sir Chandrasekhara Venkata Raman in 1928(passive) has been discovered byRaman spectroscopy
by research on petrology done by James Burleigh Thompson 's team at Harvard University(passive) was ... influenced byoptical spectroscopy
by water(passive) is ... influenced byIR ) spectroscopy
Recent high qualityhas ledIR spectroscopy
after the second world war(passive) was discoveredNMR spectroscopy
Dr Casiraghi group(passive) led byRaman spectroscopy
by the German chemists Gustav KIRCHHOFF and Robert Bunsen ( 181199(passive) discovered bySPECTROSCOPY
the eminent physicist Sir Chandrasekhara Venkata Raman in 1928(passive) discovered byspectroscopy
Gustav Kirchhoff and Robert Bunseninventedspectroscopy
by the eminent physicist Sir Chandrasekhara Venkata Raman(passive) discovered byspectroscopy
the eminent physicist while working in the laboratory of the Indian Association for the Cultivation of science , Kolkata(passive) discovered byspectroscopy
by the eminent physicist Cv Raman(passive) discovered byspectroscopy
the eminent physicist Cv Raman(passive) discovered byspectroscopy
the German chemists Gustav kirchhoff and Robert Bunsen ( 1811 - 99 ) and published in 1856(passive) discovered byspectroscopy
by the German chemists Gustav KIRCHHOFF and Robert Clocck ( 181199(passive) discovered bySPECTROSCOPY
by the eminent physicist C.V. Raman(passive) discovered byspectroscopy
by Sir CV Raman(passive) discovered byspectroscopy
Raman or IRresultsspectroscopy
the German chemists Gustav KIRCHHOFF and Robert Clocck ( 181199 ) and published in 1856(passive) discovered bySPECTROSCOPY
by the eminent physicist(passive) discovered byspectroscopy
by this eminent physicist(passive) discovered bythe spectroscopy
the work he didledto spectroscopy
Sir Isaac Newton ... the maninventedspectroscopy
Kirchhoffcontributedto spectroscopy
Photoelectronresultsspectroscopy
MRresultsspectroscopy
service dinfluencedfrom the spectroscopy
the chemical environment the molecules reside(passive) can be influenced significantly byThe spectroscopy
UV - VISresultsspectroscopy
by clear responsibility(passive) designed bythe spectroscopy
the first extrasolar planetsdiscoveredthe first extrasolar planets
Caesium(passive) was discoveredCaesium
other planetary fragments orbiting white dwarfsto discoverother planetary fragments orbiting white dwarfs
in emission and excitation spectraresultsin emission and excitation spectra
to the discovery of rubidium and caesiumledto the discovery of rubidium and caesium
from remote sensing and has been discovered for various applications by the National Aeronautics and Space Administration ( NASAwas originatedfrom remote sensing and has been discovered for various applications by the National Aeronautics and Space Administration ( NASA
in emission ( light radiationcan resultin emission ( light radiation
a unique H2O structure related to itdiscovereda unique H2O structure related to it
Rheumatoid to one 's deepest readersto discoverRheumatoid to one 's deepest readers
in line absorption and line emissionresultin line absorption and line emission
to PLS results of similar quality , which was attributed to material inhomogeneityledto PLS results of similar quality , which was attributed to material inhomogeneity
Strong interactions of the starch and the PVA components(passive) were discovered byStrong interactions of the starch and the PVA components
in spectraresultsin spectra
photolyzed.31 Cobalt(IV ) species(passive) have been discovered byphotolyzed.31 Cobalt(IV ) species
in the 1940swas discoveredin the 1940s
to the development of more efficient solar cellscould contributeto the development of more efficient solar cells
up any number of teams related to their workcould setup any number of teams related to their work
just how these systems workto discoverjust how these systems work
to the understanding of biological materialshas contributedto the understanding of biological materials
to the understanding of biological materials for many yearshas contributedto the understanding of biological materials for many years
to errorscan leadto errors
greatlyhas ... contributedgreatly
in detection and quantitative spectral classification of 134 emission - line objectsresultedin detection and quantitative spectral classification of 134 emission - line objects
to detect alpha radiationdesignedto detect alpha radiation
mesoscopic structure in ionic liquidsto discovermesoscopic structure in ionic liquids
Raman Spectroscopy raman(passive) was inventedRaman Spectroscopy raman
the first element(passive) to be discovered spectroscopicallythe first element
to detect alpha particlesdesignedto detect alpha particles
Several chemical elements(passive) were discovered bySeveral chemical elements
Several of the chemical elements(passive) were discovered bySeveral of the chemical elements
to spot optical frequency shifts and line - broadening results within the diversity of many MHz all the way down to a number of Hzdesignedto spot optical frequency shifts and line - broadening results within the diversity of many MHz all the way down to a number of Hz
DNA AnalysisresultsDNA Analysis
The first results are very promisingresultsThe first results are very promising
several additional compoundsto discoverseveral additional compounds
to spot optical frequency shifts and line - broadening results within the diversity of many MHz right down to a number of Hzdesignedto spot optical frequency shifts and line - broadening results within the diversity of many MHz right down to a number of Hz
to identify optical frequency shifts and line - broadening effects in the range of many MHz down to a few Hzdesignedto identify optical frequency shifts and line - broadening effects in the range of many MHz down to a few Hz
in the detectionresultedin the detection
to spot optical frequency shifts and line - broadening results within the variety of many MHz all the way down to a number of Hzdesignedto spot optical frequency shifts and line - broadening results within the variety of many MHz all the way down to a number of Hz
The element(passive) was discovered byThe element
to spot optical frequency shifts and line - broadening results within the variety of many MHz right down to a number of Hzdesignedto spot optical frequency shifts and line - broadening results within the variety of many MHz right down to a number of Hz