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