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P1.1.3.1 Determining the gravitational constant with the gravitation torsion balance after Cavendish - Measuring the excursion with a light pointer
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P1.2.3.1 One-sided and two-sided lever
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P1.2.3.2 Wheel and axle as a lever with unequal sides
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P1.4.3.3 Centrifugal force of an orbiting body - Measuring with the central force apparatus and CASSY
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P1.4.5.1 Definition of moment of inertia
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P1.4.5.2 Moment of inertia and body shape
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P1.4.5.3 Confirming Steiners theorem
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P1.7.2.1 Determining the oscillation frequency of a string as a function of the string length and tension
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P1.7.4.1 Reflection of planar ultrasonic waves at a plane surface
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P1.7.5.3 Diffraction of ultrasonic waves at a single slit
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P1.7.5.4 Diffraction of ultrasonic waves at a double slit, a multiple slit and a grating
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P1.7.6.1 Investigating the Doppler effect with ultrasonic waves
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P1.8.4.1 Measuring the surface tension using the "break-away" method
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P1.8.4.2 Measuring the surface tension using the "break-away" method - Recording and evaluating with CASSY
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P1.8.5.1 Static pressure and determination of the volume flow with a Venturi tube - Measuring the pressure with the precision manometer
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P1.8.5.3 Determining the wind speed with a Prandtl pressure probe - Measuring the pressure with the precision manometer
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P1.8.5.4 Static pressure and determination of the volume flow with a Venturi tube - Measuring the pressure with a pressure sensor and CASSY
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P1.8.6.1 Air resistance as a function of the wind speed and body shape - Measuring the wind speed with the precision manometer
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P1.8.6.3 Pressure curve on an airfoil profile - Measuring the pressure with the precision manometer
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P1.8.6.4 Air resistance as a function of the wind speed and body shape - Measuring the wind speed with a pressure sensor and CASSY
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P1.8.6.6 Pressure curve on an airfoil profile - Measuring the pressure with a pressure sensor and CASSY
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P2.1.2.1 Determination of volumetric expansion coefficient of liquids
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P2.1.3.1 Investigation of the density maximum of water
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P2.2.2.1 Efficiency of a solar collector
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P2.3.2.1 Determination of specific heat of solids
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P2.3.3.2 Converting mechanical energy into heat energy - Measuring with Mobile-CASSY
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P2.4.1.1 Determination of specific vaporization heat of water
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P2.5.2.1 Pressure-dependency of the volume of a gas at a constant temperature (Boyle-Mariottes law)
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P2.5.2.2 Temperature-dependency of the volume of a gas at a constant pressure (Gay-Lussacs law)
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P2.5.2.3 Temperature-dependency of the pressure of a gas at a constant volume (Amontons law)
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P2.5.3.2 Determining the adiabatic exponent cp/cV of various gases using the gas elastic resonance apparatus
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P2.6.2.1 Frictional losses in the hot-air engine (calorific determination)
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P2.6.2.2 Determining the efficiency of the hot-air engine as a heat engine
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P2.6.2.3 Determining the efficiency of the hot-air engine as a refrigerator
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P3.1.2.1 Confirming Coulombs law - Measuring with the torsion balance, Schürholz design
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P3.1.2.2 Confirming Coulombs law - Measuring with the force sensor
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P3.1.4.2 Kirchhoffs voltage balance: Measuring the force between two charged plates of a plate capacitor
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P3.1.4.3 Measuring the force between a charged sphere and a metal plate
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P3.3.3.1 Measuring the force acting on current-carrying conductors in the field of a horseshoe magnet
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P3.3.3.2 Measuring the force acting on current-carrying conductors in a homogeneous magnetic field - Recording with CASSY
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P3.3.3.3 Measuring the force acting on current-carrying conductors in the magnetic field of an air coil - Recording with CASSY
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P3.3.3.4 Basic measurements for the electrodynamic definition of the ampere
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P5.3.5.2 Measuring the refractive index of air with a Mach-Zehnder interferometer
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P5.4.6.1 Faraday effect: determining Verdets constant for flint glass as a function of the wavelength
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P5.6.1.1 Determining the velocity of light by means of the rotating-mirror method according to Foucault and Michelson - Measuring the image shift as a function of the rotational speed of the mirror
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P5.7.1.1 Measuring the line spectra of inert gases and metal vapors using a prism spectrometer
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P5.7.2.1 Measuring the line spectra of inert gases and metal vapors using a grating spectrometer
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P6.2.2.2 Qualitative investigation of the absorption spectrum of sodium
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P6.2.2.6 Recording the spectra of gas discharge lamps with a compact spectrometer
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P6.2.7.4 Measuring the Zeeman splitting of the red cadmium line as a function of the magnetic field - spectroscopy using a Fabry-Perot etalon
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P6.4.3.4 Determination of half-life of Cs-137 - Recording and evaluating the decay and production curve with CASSY
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P7.2.1.1 Investigating the Hall effect in silver
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P7.2.1.2 Investigating the anomalous Hall effect in tungsten
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P7.2.1.3 Determining the density and mobility of charge carriers in n-Germanium
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P7.2.1.4 Determining the density and mobility of charge carriers in p-Germanium
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P7.2.1.5 Determining the band gap of germanium
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C1.1.3.1 Brownian motion of smoke particles
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C1.1.3.2 Estimation of the size of oil molecules
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C1.2.2.1 Synthesis of magnesium oxide
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C1.3.2.1 Qualitative water synthesis
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C1.3.3.1 Thermal anomaly of water
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C1.4.4.2 Temperature-dependency of the volume of a gas at a constant pressure (Gay-Lussacs law) (de)
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C1.5.3.1 Conditions for iron corrosion
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C1.7.2.1 Determination of acidity (pKa value) by titration
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C1.7.2.2 Analysis of triprotic phosphoric acid by titration
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C2.4.4.1 Separation of a leaf extract with column chromatography
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C2.4.4.2 Separation of petroleum by means of column chromatography
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C3.3.1.3 Recording of a fluorescence spectrum with a spectrometer
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C3.5.1.1 Determination of acid concentration by titration with drop counter
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C3.5.1.3 Potentiometric titration of iron(II) ions (de)
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C3.5.2.1 Conductometric titration of a hydrochloric acid solution, CPS variety
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C3.5.2.2 Conductometric titration of a hydrochloric acid solution with pH measurement
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C3.5.2.3 Conductometric titration using the Electrochemistry demonstration unit
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C3.5.3.2 Manganometric determination of iron(II) ions
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C3.6.4.2 Determination of the content of phosphoric acid in a cola drink
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C4.1.3.3 Concentration and reaction rate: Magnesium in strong and weak acids
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C4.3.1.1 Differentiating between endothermic and exothermic reactions
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C4.4.1.4 Electrolytic dissociation: Dependence of conductivity on electrolyte concentration
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C4.4.5.3 The Faraday laws
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C5.1.1.1 Production of sulfuric acid by the contact method
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C5.1.2.1 Extraction of iron by the blast furnace process
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C5.4.1.1 Production of fuel from rapeseed oil
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D1.1.1.3 Determining the volume of a drop of water
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D1.1.1.4 Determining the volume of irregular solid bodies - Differential method
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D1.1.1.5 Determining the volume of irregular solid bodies - Overflow method
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D1.2.1.4a Setting up a dynamometer - stand set-up
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D1.2.1.5a Mass and weight
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D1.3.5.4 Dependence of centrifugal force on the mass of the test body
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D1.3.5.5 Dependence of centrifugal force on the distance of the test body
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D1.3.5.6 Dependence of centrifugal force on the angular velocity
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D1.7.3.1a Detecting the effect of a buoyancy force in liquids - Measurement with a precision dynamometer
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D1.7.3.1b Detecting the effect of a buoyancy force in liquids - Measurement via Sensor-CASSY and CASSY-Display
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D1.7.3.3a Dependence of the buoyancy force on the volume the body - Measurement with a precision dynamometer
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D1.7.3.3b Dependence of the buoyancy force on the volume of the immersed body - Measurement via Sensor-CASSY and CASSY-Display
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D1.7.3.4a Dependence of the buoyancy force on the kind of liquid - Measurement with a precision dynamometer
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D1.7.3.4b Dependence of the buoyancy force on the kind of liquid - Measurement via Sensor-CASSY and CASSY-Display
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D1.7.3.5a Archimedes principle - Measurement with a precision dynamometer
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D1.7.3.5c Archimedes principle - Measurement with Sensor-CASSY and CASSY-Display
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D2.2.1.1a Thermal energy and rises in temperature
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D2.2.1.2a Thermal energy and mass
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D2.2.1.3a Thermal energy and materials
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D2.2.1.4a Specific heat of water (de)
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D2.3.1.1a Heat conduction in solid bodies (de)
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D2.3.1.2a Dependence of heat conduction in solid bodies upon material Simple heat conduction apparatus (de)
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D2.3.2.1 Demonstrating heat convection in water
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D2.3.2.2 Model experiment on the operation of a hot-water heating system
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D2.3.3.1a Absorption of heat radiation - Measurement with Sensor-CASSY and CASSY-Display
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D2.4.1.1a Determining the melting and the solidification temperature/candle wax - Measurement with Sensor-CASSY and CASSY-Display (de)
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D2.4.1.1b Determining the melting and the solidification temperature/Wood's metal - Measurement with Sensor-CASSY and CASSY-Display
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D2.4.2.1c Warming up water until it boils - Measurement with Sensor-CASSY and PC
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D3.4.4.2b Correlation between resistance and length of a wire - Resistance measuring instrument
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D3.4.4.3b Correlation between resistance and the cross-sectional area of a wire - Resistance measuring instrument
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D3.4.4.4b Correlation between the resistance and the material of a wire - Resistance measuring instrument
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D3.4.7.3b Conversion of electrical energy into thermal energy - Measurement via joulemeter and wattmeter
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D3.9.2.8a Conversion of energy in a fuel cell - Operation with a solar cell and electrolysis cell
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D5.6.3.1a Spectra of fluorescent gases - Gas discharge tubes
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