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