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