Someone sneezes Gold (Au) Heavy element Vacuum Reproducibility Optical path PANanlytical Detector X-ray tube Reference material Peak area Compton Graphite crystal X- ray Radiation Standard deviation We get to do a calculation Dispersion Homogeneous Inner electron Gadolinium (Gd) Binding energy Malvern Ppm Metal Rayleigh Monochromator Enhancement Elemental analysis Gaussian We get to look up a table Accuracy Absorption Compound M- shell Analysis Pellet Gamma rays Multichannel analyzer Goniometer We get to do an experiment Bragg’s law Concentration L- shell Collimeter Enhancement effect Wavelength Fluorescence Wavelength dispersive There is a spelling mistake on the slide Auger Optics Table top instrument Beads Calibration Sample preparation Diffraction crystal Sequential spectrometers Vacancy Specimen Data processing WD- XRF Analyzing crystal First order reflection Bremsstrahlung Grinding Sequential XRF Signal to noise Absorption edge Resolution Si- PIN Counts per second Lecturer passes around samples Infinite thickness Siegbahn notation Cup MAC Moseley’s law Fusion Matrix effect Emission Scattering Chemometric Rhodium (Rh) Spectral line Energy dispersive Limit of Detection Ionization energy Someone sneezes Gold (Au) Heavy element Vacuum Reproducibility Optical path PANanlytical Detector X-ray tube Reference material Peak area Compton Graphite crystal X- ray Radiation Standard deviation We get to do a calculation Dispersion Homogeneous Inner electron Gadolinium (Gd) Binding energy Malvern Ppm Metal Rayleigh Monochromator Enhancement Elemental analysis Gaussian We get to look up a table Accuracy Absorption Compound M- shell Analysis Pellet Gamma rays Multichannel analyzer Goniometer We get to do an experiment Bragg’s law Concentration L- shell Collimeter Enhancement effect Wavelength Fluorescence Wavelength dispersive There is a spelling mistake on the slide Auger Optics Table top instrument Beads Calibration Sample preparation Diffraction crystal Sequential spectrometers Vacancy Specimen Data processing WD- XRF Analyzing crystal First order reflection Bremsstrahlung Grinding Sequential XRF Signal to noise Absorption edge Resolution Si- PIN Counts per second Lecturer passes around samples Infinite thickness Siegbahn notation Cup MAC Moseley’s law Fusion Matrix effect Emission Scattering Chemometric Rhodium (Rh) Spectral line Energy dispersive Limit of Detection Ionization energy
(Print)
N-Someone sneezes
G-Gold (Au)
N-Heavy element
O-Vacuum
N-Reproducibility
G-Optical path
B-PANanlytical
O-Detector
N-X-ray tube
I-Reference material
I-Peak area
O-Compton
B-Graphite crystal
I-X-ray
O-Radiation
B-Standard deviation
G-We get to do a calculation
I-Dispersion
G-Homogeneous
B-Inner electron
B-Gadolinium (Gd)
N-Binding energy
I-Malvern
G-Ppm
G-Metal
B-Rayleigh
O-Monochromator
B-Enhancement
N-Elemental analysis
N-Gaussian
B-We get to look up a table
N-Accuracy
B-Absorption
G-Compound
I-M-shell
G-Analysis
N-Pellet
I-Gamma rays
N-Multichannel analyzer
O-Goniometer
O-We get to do an experiment
G-Bragg’s law
B-Concentration
O-L-shell
N-Collimeter
I-Enhancement effect
B-Wavelength
G-Fluorescence
I-Wavelength dispersive
N-There is a spelling mistake on the slide
B-Auger
O-Optics
I-Table top instrument
I-Beads
B-Calibration
B-Sample preparation
B-Diffraction crystal
N-Sequential spectrometers
G-Vacancy
G-Specimen
G-Data processing
N-WD-XRF
O-Analyzing crystal
N-First order reflection
O-Bremsstrahlung
I-Grinding
G-Sequential XRF
B-Signal to noise
I-Absorption edge
G-Resolution
I-Si-PIN
I-Counts per second
N-Lecturer passes around samples
O-Infinite thickness
O-Siegbahn notation
N-Cup
B-MAC
B-Moseley’s law
O-Fusion
N-Matrix effect
G-Emission
I-Scattering
I-Chemometric
O-Rhodium (Rh)
O-Spectral line
O-Energy dispersive
G-Limit of Detection
I-Ionization energy
