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