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