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