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