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