Resolution Rhodium (Rh) Elemental analysis PANanlytical Spectral line Matrix effect Vacancy First order reflection Pellet There is a spelling mistake on the slide Dispersion Graphite crystal Peak area Homogeneous MAC L- shell Reference material We get to look up a table Sequential spectrometers Sample preparation Absorption Wavelength Fluorescence Gadolinium (Gd) Specimen Bremsstrahlung Diffraction crystal Ppm Analyzing crystal Heavy element Multichannel analyzer Data processing Rayleigh Grinding Reproducibility Gaussian Analysis Ionization energy Monochromator Siegbahn notation WD- XRF Someone sneezes Signal to noise Table top instrument Chemometric Vacuum Wavelength dispersive Inner electron Cup We get to do a calculation Concentration Emission Counts per second Gamma rays Gold (Au) Scattering Malvern M- shell Beads Collimeter Compton Energy dispersive Optical path Enhancement effect Sequential XRF Moseley’s law Fusion Compound Standard deviation Limit of Detection Si- PIN Absorption edge Binding energy Accuracy Enhancement Detector Bragg’s law Infinite thickness Calibration Metal Lecturer passes around samples We get to do an experiment Optics Auger X- ray Goniometer Radiation X-ray tube Resolution Rhodium (Rh) Elemental analysis PANanlytical Spectral line Matrix effect Vacancy First order reflection Pellet There is a spelling mistake on the slide Dispersion Graphite crystal Peak area Homogeneous MAC L- shell Reference material We get to look up a table Sequential spectrometers Sample preparation Absorption Wavelength Fluorescence Gadolinium (Gd) Specimen Bremsstrahlung Diffraction crystal Ppm Analyzing crystal Heavy element Multichannel analyzer Data processing Rayleigh Grinding Reproducibility Gaussian Analysis Ionization energy Monochromator Siegbahn notation WD- XRF Someone sneezes Signal to noise Table top instrument Chemometric Vacuum Wavelength dispersive Inner electron Cup We get to do a calculation Concentration Emission Counts per second Gamma rays Gold (Au) Scattering Malvern M- shell Beads Collimeter Compton Energy dispersive Optical path Enhancement effect Sequential XRF Moseley’s law Fusion Compound Standard deviation Limit of Detection Si- PIN Absorption edge Binding energy Accuracy Enhancement Detector Bragg’s law Infinite thickness Calibration Metal Lecturer passes around samples We get to do an experiment Optics Auger X- ray Goniometer Radiation X-ray tube
(Print) Use this randomly generated list as your call list when playing the game. Place some kind of mark (like an X, a checkmark, a dot, tally mark, etc) on each cell as you announce it, to keep track. You can also cut out each item, place them in a bag and pull words from the bag.
G-Resolution
O-Rhodium (Rh)
N-Elemental analysis
B-PANanlytical
O-Spectral line
N-Matrix effect
G-Vacancy
N-First order reflection
N-Pellet
N-There is a spelling mistake on the slide
I-Dispersion
B-Graphite crystal
I-Peak area
G-Homogeneous
B-MAC
O-L-shell
I-Reference material
B-We get to look up a table
N-Sequential spectrometers
B-Sample preparation
B-Absorption
B-Wavelength
G-Fluorescence
B-Gadolinium (Gd)
G-Specimen
O-Bremsstrahlung
B-Diffraction crystal
G-Ppm
O-Analyzing crystal
N-Heavy element
N-Multichannel analyzer
G-Data processing
B-Rayleigh
I-Grinding
N-Reproducibility
N-Gaussian
G-Analysis
I-Ionization energy
O-Monochromator
O-Siegbahn notation
N-WD-XRF
N-Someone sneezes
B-Signal to noise
I-Table top instrument
I-Chemometric
O-Vacuum
I-Wavelength dispersive
B-Inner electron
N-Cup
G-We get to do a calculation
B-Concentration
G-Emission
I-Counts per second
I-Gamma rays
G-Gold (Au)
I-Scattering
I-Malvern
I-M-shell
I-Beads
N-Collimeter
O-Compton
O-Energy dispersive
G-Optical path
I-Enhancement effect
G-Sequential XRF
B-Moseley’s law
O-Fusion
G-Compound
B-Standard deviation
G-Limit of Detection
I-Si-PIN
I-Absorption edge
N-Binding energy
N-Accuracy
B-Enhancement
O-Detector
G-Bragg’s law
O-Infinite thickness
B-Calibration
G-Metal
N-Lecturer passes around samples
O-We get to do an experiment
O-Optics
B-Auger
I-X-ray
O-Goniometer
O-Radiation
N-X-ray tube