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Leybold LD Didactic

C4.4.7.1 Investigation of a PEM Fuel Cell Stack
C4.4.7.1 Investigation of a PEM Fuel Cell Stack
C4.4.7.1 Investigation of a PEM Fuel Cell Stack
C4.4.7.1 Investigation of a PEM Fuel Cell Stack

C4.4.7.1 Investigation of a PEM Fuel Cell Stack

$7,460.00
PFB001 Precision Fresnel Biprism Interference Apparatus
PFB001 Precision Fresnel Biprism Interference Apparatus
PFB001 Precision Fresnel Biprism Interference Apparatus
PFB001 Precision Fresnel Biprism Interference Apparatus
PFB001 Precision Fresnel Biprism Interference Apparatus
PFB001 Precision Fresnel Biprism Interference Apparatus

PFB001 Precision Fresnel Biprism Interference Apparatus

$2,250.00
P7.5.1.2 Determination of the Chemical Composition of a Brass Sample by X-ray Fluorescence Analysis
P7.5.1.2 Determination of the Chemical Composition of a Brass Sample by X-ray Fluorescence Analysis
P7.5.1.2 Determination of the Chemical Composition of a Brass Sample by X-ray Fluorescence Analysis
P7.5.1.2 Determination of the Chemical Composition of a Brass Sample by X-ray Fluorescence Analysis
P7.5.1.2 Determination of the Chemical Composition of a Brass Sample by X-ray Fluorescence Analysis
P7.5.1.2 Determination of the Chemical Composition of a Brass Sample by X-ray Fluorescence Analysis

P7.5.1.2 Determination of the Chemical Composition of a Brass Sample by X-ray Fluorescence Analysis

$45,445.00
P7.5.1.1 Application of X-ray Fluorescence for the Non-Destructive Analysis of the Chemical Composition
P7.5.1.1 Application of X-ray Fluorescence for the Non-Destructive Analysis of the Chemical Composition
P7.5.1.1 Application of X-ray Fluorescence for the Non-Destructive Analysis of the Chemical Composition
P7.5.1.1 Application of X-ray Fluorescence for the Non-Destructive Analysis of the Chemical Composition

P7.5.1.1 Application of X-ray Fluorescence for the Non-Destructive Analysis of the Chemical Composition

$44,175.00
P7.2.1.2 Investigating the Anomalous Hall Effect in Tungsten Complete Experiment
P7.2.1.2 Investigating the Anomalous Hall Effect in Tungsten Complete Experiment
P7.2.1.2 Investigating the Anomalous Hall Effect in Tungsten Complete Experiment
P7.2.1.2 Investigating the Anomalous Hall Effect in Tungsten Complete Experiment

P7.2.1.2 Investigating the Anomalous Hall Effect in Tungsten Complete Experiment

$8,425.00
P7.2.1.1 Investigating the Hall Effect in Silver Complete Experiment
P7.2.1.1 Investigating the Hall Effect in Silver Complete Experiment
P7.2.1.1 Investigating the Hall Effect in Silver Complete Experiment
P7.2.1.1 Investigating the Hall Effect in Silver Complete Experiment

P7.2.1.1 Investigating the Hall Effect in Silver Complete Experiment

$6,825.00
P7.1.2.5 Digital Laue Diagrams: Investigating the Lattice Structure of Monocrystals
P7.1.2.5 Digital Laue Diagrams: Investigating the Lattice Structure of Monocrystals
P7.1.2.5 Digital Laue Diagrams: Investigating the Lattice Structure of Monocrystals
P7.1.2.5 Digital Laue Diagrams: Investigating the Lattice Structure of Monocrystals

P7.1.2.5 Digital Laue Diagrams: Investigating the Lattice Structure of Monocrystals

$73,960.00
P7.1.2.4 Debye-Scherrer Scan: Determining the Lattice Plane Spacings of Polycrystalline Powder Samples
P7.1.2.4 Debye-Scherrer Scan: Determining the Lattice Plane Spacings of Polycrystalline Powder Samples
P7.1.2.4 Debye-Scherrer Scan: Determining the Lattice Plane Spacings of Polycrystalline Powder Samples
P7.1.2.4 Debye-Scherrer Scan: Determining the Lattice Plane Spacings of Polycrystalline Powder Samples

P7.1.2.4 Debye-Scherrer Scan: Determining the Lattice Plane Spacings of Polycrystalline Powder Samples

$33,945.00
P7.1.2.1 Bragg Reflection: Determining the Lattice Constants of Monocrystals
P7.1.2.1 Bragg Reflection: Determining the Lattice Constants of Monocrystals
P7.1.2.1 Bragg Reflection: Determining the Lattice Constants of Monocrystals
P7.1.2.1 Bragg Reflection: Determining the Lattice Constants of Monocrystals

P7.1.2.1 Bragg Reflection: Determining the Lattice Constants of Monocrystals

$34,975.00
P6.5.6.1 Quantitative Observation of the Compton Effect
P6.5.6.1 Quantitative Observation of the Compton Effect
P6.5.6.1 Quantitative Observation of the Compton Effect
P6.5.6.1 Quantitative Observation of the Compton Effect
P6.5.6.1 Quantitative Observation of the Compton Effect
P6.5.6.1 Quantitative Observation of the Compton Effect

P6.5.6.1 Quantitative Observation of the Compton Effect

$27,520.00
P6.3.8.1 Measurement and Presentation of a Computed Tomogram with the Computed Tomography Module
P6.3.8.1 Measurement and Presentation of a Computed Tomogram with the Computed Tomography Module
P6.3.8.1 Measurement and Presentation of a Computed Tomogram with the Computed Tomography Module
P6.3.8.1 Measurement and Presentation of a Computed Tomogram with the Computed Tomography Module
P6.3.8.1 Measurement and Presentation of a Computed Tomogram with the Computed Tomography Module
P6.3.8.1 Measurement and Presentation of a Computed Tomogram with the Computed Tomography Module
P6.3.8.1 Measurement and Presentation of a Computed Tomogram with the Computed Tomography Module
P6.3.8.1 Measurement and Presentation of a Computed Tomogram with the Computed Tomography Module
P6.3.8.1 Measurement and Presentation of a Computed Tomogram with the Computed Tomography Module
P6.3.8.1 Measurement and Presentation of a Computed Tomogram with the Computed Tomography Module

P6.3.8.1 Measurement and Presentation of a Computed Tomogram with the Computed Tomography Module

$47,695.00
P6.3.7.1 Compton Effect: Verifying the Energy Loss of the Scattered X-ray Quantum Complete Experiment
P6.3.7.1 Compton Effect: Verifying the Energy Loss of the Scattered X-ray Quantum Complete Experiment
P6.3.7.1 Compton Effect: Verifying the Energy Loss of the Scattered X-ray Quantum Complete Experiment
P6.3.7.1 Compton Effect: Verifying the Energy Loss of the Scattered X-ray Quantum Complete Experiment
P6.3.7.1 Compton Effect: Verifying the Energy Loss of the Scattered X-ray Quantum Complete Experiment
P6.3.7.1 Compton Effect: Verifying the Energy Loss of the Scattered X-ray Quantum Complete Experiment

P6.3.7.1 Compton Effect: Verifying the Energy Loss of the Scattered X-ray Quantum Complete Experiment

$33,920.00
P6.2.7.4 Measuring Zeeman Splitting of the Red Cadmium Line as a Function of the Magnetic Field-Spectroscopy using Fabry-Perot Etalon Leybold Physics Lab Experiment
P6.2.7.4 Measuring Zeeman Splitting of the Red Cadmium Line as a Function of the Magnetic Field-Spectroscopy using Fabry-Perot Etalon Leybold Physics Lab Experiment
P6.2.7.4 Measuring Zeeman Splitting of the Red Cadmium Line as a Function of the Magnetic Field-Spectroscopy using Fabry-Perot Etalon Leybold Physics Lab Experiment
P6.2.7.4 Measuring Zeeman Splitting of the Red Cadmium Line as a Function of the Magnetic Field-Spectroscopy using Fabry-Perot Etalon Leybold Physics Lab Experiment

P6.2.7.4 Measuring Zeeman Splitting of the Red Cadmium Line as a Function of the Magnetic Field-Spectroscopy using Fabry-Perot Etalon Leybold Physics Lab Experiment

$18,225.00
P6.2.6.2 Electron Spin Resonance at DPPH - Determinig the Magnetic Field as a Function of the Resonance Frequency
P6.2.6.2 Electron Spin Resonance at DPPH - Determinig the Magnetic Field as a Function of the Resonance Frequency
P6.2.6.2 Electron Spin Resonance at DPPH - Determinig the Magnetic Field as a Function of the Resonance Frequency
P6.2.6.2 Electron Spin Resonance at DPPH - Determinig the Magnetic Field as a Function of the Resonance Frequency
P6.2.6.2 Electron Spin Resonance at DPPH - Determinig the Magnetic Field as a Function of the Resonance Frequency
P6.2.6.2 Electron Spin Resonance at DPPH - Determinig the Magnetic Field as a Function of the Resonance Frequency

P6.2.6.2 Electron Spin Resonance at DPPH - Determinig the Magnetic Field as a Function of the Resonance Frequency

$10,835.00
P6.2.4.3 Franck-Hertz Experiment with Neon - Recording with the Oscilloscope
P6.2.4.3 Franck-Hertz Experiment with Neon - Recording with the Oscilloscope
P6.2.4.3 Franck-Hertz Experiment with Neon - Recording with the Oscilloscope
P6.2.4.3 Franck-Hertz Experiment with Neon - Recording with the Oscilloscope
P6.2.4.3 Franck-Hertz Experiment with Neon - Recording with the Oscilloscope
P6.2.4.3 Franck-Hertz Experiment with Neon - Recording with the Oscilloscope

P6.2.4.3 Franck-Hertz Experiment with Neon - Recording with the Oscilloscope

$7,070.00
P6.1.5.1 Diffraction of Electrons at a Polycrystalline Lattice (Debye-Scherrer Diffraction) Leybold Physics Lab Experiment
P6.1.5.1 Diffraction of Electrons at a Polycrystalline Lattice (Debye-Scherrer Diffraction) Leybold Physics Lab Experiment
P6.1.5.1 Diffraction of Electrons at a Polycrystalline Lattice (Debye-Scherrer Diffraction) Leybold Physics Lab Experiment
P6.1.5.1 Diffraction of Electrons at a Polycrystalline Lattice (Debye-Scherrer Diffraction) Leybold Physics Lab Experiment

P6.1.5.1 Diffraction of Electrons at a Polycrystalline Lattice (Debye-Scherrer Diffraction) Leybold Physics Lab Experiment

$4,824.00
P6.1.4.3 Determining Planck’s Constant - Selection of Wavelengths Using Interference Filters on the Optical Bench
P6.1.4.3 Determining Planck’s Constant - Selection of Wavelengths Using Interference Filters on the Optical Bench
P6.1.4.3 Determining Planck’s Constant - Selection of Wavelengths Using Interference Filters on the Optical Bench
P6.1.4.3 Determining Planck’s Constant - Selection of Wavelengths Using Interference Filters on the Optical Bench

P6.1.4.3 Determining Planck’s Constant - Selection of Wavelengths Using Interference Filters on the Optical Bench

$9,300.00
P6.1.2.4 Determining the Electric Unit Charge after Millikan and Verifying the Charge Quantification - Measuring the Rising and Falling Speed with CASSY
P6.1.2.4 Determining the Electric Unit Charge after Millikan and Verifying the Charge Quantification - Measuring the Rising and Falling Speed with CASSY
P6.1.2.4 Determining the Electric Unit Charge after Millikan and Verifying the Charge Quantification - Measuring the Rising and Falling Speed with CASSY
P6.1.2.4 Determining the Electric Unit Charge after Millikan and Verifying the Charge Quantification - Measuring the Rising and Falling Speed with CASSY
P6.1.2.4 Determining the Electric Unit Charge after Millikan and Verifying the Charge Quantification - Measuring the Rising and Falling Speed with CASSY
P6.1.2.4 Determining the Electric Unit Charge after Millikan and Verifying the Charge Quantification - Measuring the Rising and Falling Speed with CASSY

P6.1.2.4 Determining the Electric Unit Charge after Millikan and Verifying the Charge Quantification - Measuring the Rising and Falling Speed with CASSY

$8,805.00
P5873 Glass Fibre Optics Photonics Kit
P5.8.7.3 Glass Fibre Optics Photonics Kit
P5873 Glass Fibre Optics Photonics Kit
P5.8.7.3 Glass Fibre Optics Photonics Kit

P5.8.7.3 Glass Fibre Optics Photonics Kit

$22,790.00
P5863 Diode Pumped Nd: Yag Laser with Frequency Doubling
P5.8.6.3 Diode Pumped Nd: Yag Laser with Frequency Doubling
P5863 Diode Pumped Nd: Yag Laser with Frequency Doubling
P5.8.6.3 Diode Pumped Nd: Yag Laser with Frequency Doubling

P5.8.6.3 Diode Pumped Nd: Yag Laser with Frequency Doubling

$26,930.00