Table top instrument Reproducibility Normalization Limit of Quantitation Data processing Tin (Sn) Enhancement Emission WD- XRF Spectrometer Moseley’s law We get to do an experiment Spectral line Someone sneezes ED- XRF Sample preparation We are at slide 48 X-ray tube Optical path We are at slide 22 Wavelength We get to do a calculation We get to look up a table Sequential XRF Wavelength dispersive Resolution Dispersion Enhancement effect Detector Malvern Counts per second Elemental analysis Monochromator Absorption Auger Multichannel analyzer Collimeter Binding energy Siegbahn notation Bremsstrahlung Standard deviation Chemometric Spinner Accuracy Sensitivity There is a spelling mistake on the slide MAC M- shell Electron Calibration Analysis Bragg’s law Vacuum Compton Reference material Energy dispersive L- shell Sequential spectrometers Lecturer passes around samples Loss of ignition (LOI) Scattering Compound Si- PIN Beads Analyzing crystal Vacancy Spectrum Limit of Detection Matrix effect Concentration X- ray Signal to noise Electron Specimen Rhodium (Rh) Metal First order reflection Absorption edge Cup Diffraction crystal Table top instrument Reproducibility Normalization Limit of Quantitation Data processing Tin (Sn) Enhancement Emission WD- XRF Spectrometer Moseley’s law We get to do an experiment Spectral line Someone sneezes ED- XRF Sample preparation We are at slide 48 X-ray tube Optical path We are at slide 22 Wavelength We get to do a calculation We get to look up a table Sequential XRF Wavelength dispersive Resolution Dispersion Enhancement effect Detector Malvern Counts per second Elemental analysis Monochromator Absorption Auger Multichannel analyzer Collimeter Binding energy Siegbahn notation Bremsstrahlung Standard deviation Chemometric Spinner Accuracy Sensitivity There is a spelling mistake on the slide MAC M- shell Electron Calibration Analysis Bragg’s law Vacuum Compton Reference material Energy dispersive L- shell Sequential spectrometers Lecturer passes around samples Loss of ignition (LOI) Scattering Compound Si- PIN Beads Analyzing crystal Vacancy Spectrum Limit of Detection Matrix effect Concentration X- ray Signal to noise Electron Specimen Rhodium (Rh) Metal First order reflection Absorption edge Cup Diffraction crystal
(Print)
Table top instrument
Reproducibility
Normalization
Limit of Quantitation
Data processing
Tin (Sn)
Enhancement
Emission
WD-XRF
Spectrometer
Moseley’s law
We get to do an experiment
Spectral line
Someone sneezes
ED-XRF
Sample preparation
We are at slide 48
X-ray tube
Optical path
We are at slide 22
Wavelength
We get to do a calculation
We get to look up a table
Sequential XRF
Wavelength dispersive
Resolution
Dispersion
Enhancement effect
Detector
Malvern
Counts per second
Elemental analysis
Monochromator
Absorption
Auger
Multichannel analyzer
Collimeter
Binding energy
Siegbahn notation
Bremsstrahlung
Standard deviation
Chemometric
Spinner
Accuracy
Sensitivity
There is a spelling mistake on the slide
MAC
M-shell
Electron
Calibration
Analysis
Bragg’s law
Vacuum
Compton
Reference material
Energy dispersive
L-shell
Sequential spectrometers
Lecturer passes around samples
Loss of ignition (LOI)
Scattering
Compound
Si-PIN
Beads
Analyzing crystal
Vacancy
Spectrum
Limit of Detection
Matrix effect
Concentration
X-ray
Signal to noise
Electron
Specimen
Rhodium (Rh)
Metal
First order reflection
Absorption edge
Cup
Diffraction crystal
