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