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