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