PDF (Instruction Sheet) |
[524 220] CASSY Lab 2
|
PDF (Description from CASSY Lab) |
P1.3.3.4 Path-time and velocity-time diagrams of straight motion - Recording and evaluating with CASSY
|
PDF (Description from CASSY Lab) |
P1.3.5.3 Free fall: multiple measurements with the g ladder
|
PDF (Description from CASSY Lab) |
P1.4.1.2 Path-time diagrams of rotational motions - Recording and evaluating with CASSY
|
PDF (Description from CASSY Lab) |
P1.4.3.3 Centrifugal force of an orbiting body - Measuring with the central force apparatus and CASSY
|
PDF (Description from CASSY Lab) |
P1.4.4.3 Precession and nutation of a gyroscope
|
PDF (Description from CASSY Lab) |
P1.5.1.6 Pendulum with changeable acceleration due to gravity (variable g-pendulum)
|
PDF (Description from CASSY Lab) |
P1.5.2.1 Oscillations of a spring pendulum and determination of oscillation period as a function of the oscillating mass - Measuring with CASSY
|
PDF (Experiment description) |
P1.5.3.3 Free rotational oscillations - Recording with CASSY
|
PDF (Experiment description) |
P1.5.3.4 Forced harmonic and chaotic rotational oscillations - Recording with CASSY
|
PDF (Description from CASSY Lab) |
P1.5.4.4 Coupled pendulum - Recording and evaluating with CASSY
|
PDF (Description from CASSY Lab) |
P1.7.1.3 Acoustic beats - Recording with CASSY
|
PDF (Description from CASSY Lab) |
P1.7.2.1 Determining the oscillation frequency of a string as a function of the string length and tension
|
PDF (Description from CASSY Lab) |
P1.7.3.3 Determining the velocity of sound in air as a function of the temperature
|
PDF (Description from CASSY Lab) |
P1.7.3.4 Determining the velocity of sound in gases
|
PDF (Description from CASSY Lab) |
P1.7.3.5 Determining the velocity of sound in solids
|
PDF (Experiment description) |
P1.7.5.3 Diffraction of ultrasonic waves at a single slit
|
PDF (Experiment description) |
P1.7.5.4 Diffraction of ultrasonic waves at a double slit, a multiple slit and a grating
|
PDF (Description from CASSY Lab) |
P1.7.7.1 Investigating fast Fourier transforms: simulation of Fourier analysis and Fourier synthesis
|
PDF (Description from CASSY Lab) |
P1.7.7.2 Fourier analysis of the periodic signals of a function generator
|
PDF (Description from CASSY Lab) |
P1.7.7.3 Fourier analysis of an electric oscillator circuit
|
PDF (Description from CASSY Lab) |
P1.7.7.4 Fourier analysis of sounds
|
PDF (Experiment description) |
P2.2.1.1 Determining the thermal conductivity of building materials using the single-plate method
|
PDF (Experiment description) |
P2.2.1.2 Determining the thermal conductivity of building materials using the heat flux plate principle
|
PDF (Experiment description) |
P2.2.1.3 Damping temperature fluctuations using multiple-layered walls
|
PDF (Description from CASSY Lab) |
P2.3.4.3 Converting electrical energy into heat energy - Measuring with CASSY
|
PDF (Experiment description) |
P2.5.2.1 Pressure-dependency of the volume of a gas at a constant temperature (Boyle-Mariottes law)
|
PDF (Experiment description) |
P2.5.2.2 Temperature-dependency of the volume of a gas at a constant pressure (Gay-Lussacs law)
|
PDF (Experiment description) |
P2.5.2.3 Temperature-dependency of the pressure of a gas at a constant volume (Amontons law)
|
PDF (Experiment description) |
P2.6.2.4 pV diagram of the hot-air engine as a heat engine - Recording and evaluating with CASSY
|
PDF (Description from CASSY Lab) |
P2.6.2.4 pV diagram of the hot-air engine as a heat engine - Recording and evaluating with CASSY
|
PDF (Description from CASSY Lab) |
P3.3.3.2 Measuring the force acting on current-carrying conductors in a homogeneous magnetic field - Recording with CASSY
|
PDF (Description from CASSY Lab) |
P3.3.3.3 Measuring the force acting on current-carrying conductors in the magnetic field of an air coil - Recording with CASSY
|
PDF (Description from CASSY Lab) |
P3.4.1.1 Generating a voltage surge in a conductor loop with a moving permanent magnet
|
PDF (Description from CASSY Lab) |
P3.4.3.2 Measuring the induction voltage in a conductor loop for a variable magnetic field - with Power-CASSY as variable source of current
|
PDF (Description from CASSY Lab) |
P3.4.5.3 Recording the voltage and current of a transformer under load as a function of time
|
PDF (Description from CASSY Lab) |
P3.4.5.4 Power transmission of a transformer
|
PDF (Experiment description) |
P3.4.6.2 Measuring the earths magnetic field with a rotating induction coil and wireless CASSY
|
PDF (Description from CASSY Lab) |
P4.1.2.1 Recording the current-voltage characteristic of an incandescent lamp
|
PDF (Description from CASSY Lab) |
P5.3.1.4 Diffraction at a single slit - Recording and evaluating with CASSY
|
PDF (Description from CASSY Lab) |
P5.3.1.5 Diffraction at a double slit and multiple slits - Recording and evaluating with CASSY
|
PDF (Experiment description) |
P5.5.2.2 Stefan-Boltzmann law: measuring the radiant intensity of a "black body" as a function of temperature - Recording and evaluating with CASSY
|
PDF (Description from CASSY Lab) |
P5.6.3.3 Determining the velocity of light using a periodical light signal at a short measuring distance - measuring with the laser motion sensor S and CASSY
|
PDF (Description from CASSY Lab) |
P5.6.3.4 Determining the velocity of light for different propagation media - measuring with the laser motion sensor S and CASSY
|
PDF (Description from CASSY Lab) |
P6.1.2.3 Determining the electric unit charge after Millikan and verifying the charge quantification - Measuring the suspension voltage and the falling speed with CASSY
|
PDF (Description from CASSY Lab) |
P6.1.2.4 Determining the electric unit charge after Millikan and verifying the charge quantification - Measuring the rising and falling speed with CASSY
|
PDF (Experiment description) |
P6.1.4.4 Determining Plancks constant - Recording the current-voltage characteristics, selection of wavelengths using interference filters on the optical bench
|
PDF (Description from CASSY Lab) |
P6.2.4.2 Franck-Hertz experiment with mercury - Recording and evaluation with CASSY
|
PDF (Description from CASSY Lab) |
P6.2.4.4 Franck-Hertz experiment with neon - Recording and evaluation with CASSY
|
PDF (Experiment description) |
P6.3.5.1 Recording and calibrating an X-ray energy spectrum
|
PDF (Experiment description) |
P6.3.5.2 Recording the energy spectrum of a molybdenum anode
|
PDF (Experiment description) |
P6.3.5.3 Recording the energy spectrum of a copper anode
|
PDF (Experiment description) |
P6.3.5.4 Investigation of the characteristic spectra as a function of the element's atomic number: K-lines
|
PDF (Description from CASSY Lab) |
P6.3.5.4 Investigation of the characteristic spectra as a function of the element's atomic number: K-lines
|
PDF (Experiment description) |
P6.3.5.5 Investigation of the characteristic spectra as a function of the element's atomic number: L-lines
|
PDF (Description from CASSY Lab) |
P6.3.5.5 Investigation of the characteristic spectra as a function of the element's atomic number: L-lines
|
PDF (Experiment description) |
P6.3.5.6 Energy-resolved Bragg reflection in different orders of diffraction
|
PDF (Description from CASSY Lab) |
P6.3.5.6 Energy-resolved Bragg reflection in different orders of diffraction
|
PDF (Experiment description) |
P6.3.7.2 Compton effect: Measurement the energy of the scattered photons as a function of the scattering angle
|
PDF (Description from CASSY Lab) |
P6.3.7.2 Compton effect: Measurement the energy of the scattered photons as a function of the scattering angle
|
PDF (Description from CASSY Lab) |
P6.4.2.1 Statistical variations in determining counting rates
|
PDF (Experiment description) |
P6.4.3.4 Determination of half-life of Cs-137 - Recording and evaluating the decay and production curve with CASSY
|
PDF (Description from CASSY Lab) |
P6.5.4.1 a spectroscopy of radioactive samples
|
PDF (Description from CASSY Lab) |
P6.5.4.2 Determining the energy loss of a radiation in air
|
PDF (Description from CASSY Lab) |
P6.5.4.3 Determining the energy loss of a radiation in aluminum and in gold
|
PDF (Description from CASSY Lab) |
P6.5.4.4 Determining age using a Ra-226 sample
|
PDF (Description from CASSY Lab) |
P6.5.5.1 Detecting ? radiation with a scintillation counter
|
PDF (Description from CASSY Lab) |
P6.5.5.2 Recording and calibrating a ? spectrum
|
PDF (Description from CASSY Lab) |
P6.5.5.3 Absorption of ? radiation
|
PDF (Description from CASSY Lab) |
P6.5.5.4 Identifying and determining the activity of radioactive samples
|
PDF (Description from CASSY Lab) |
P6.5.5.5 Recording a ß spectrum with a scintillation counter
|
PDF (Description from CASSY Lab) |
P6.5.5.6 Coincidence and ?-? angular correlation in positron decay
|
PDF (Description from CASSY Lab) |
P6.5.5.7 Coincidence at ? decay of cobalt
|
PDF (Description from CASSY Lab) |
P6.5.6.1 Quantitative observation of the Compton effect
|
PDF (Description from CASSY Lab) |
P6.6.2.1 Detection of Muons
|
PDF (Experiment description) |
P7.2.1.3 Determining the density and mobility of charge carriers in n-Germanium
|
PDF (Experiment description) |
P7.2.1.4 Determining the density and mobility of charge carriers in p-Germanium
|
PDF (Experiment description) |
P7.2.1.5 Determining the band gap of germanium
|
PDF (Description from CASSY Lab) |
P7.2.2.1 Measuring the temperature-dependency of a noble-metal resistor
|
PDF (Description from CASSY Lab) |
P7.2.2.2 Measuring the temperature-dependency of a semiconductor resistor
|
PDF (Experiment description) |
P7.2.6.1 Determining the transition temperature of a high-temperature superconductor
|
PDF (Description from CASSY Lab) |
P7.3.2.1 Recording the initial magnetization curve and the hysteresis curve of a ferromagnet and iron
|
PDF (Experiment description) |
P7.5.1.1 Application of X-ray fluorescence for the non-destructive analysis of the chemical composition
|
PDF (Description from CASSY Lab) |
P7.5.1.1 Application of X-ray fluorescence for the non-destructive analysis of the chemical composition
|
PDF (Experiment description) |
P7.5.1.2 Determination of the chemical composition of a brass sample by X-ray fluorescence analysis
|
PDF (Description from CASSY Lab) |
P7.5.1.2 Determination of the chemical composition of a brass sample by X-ray fluorescence analysis
|
PDF (Experiment description) |
C1.1.2.1 Melting ice, boiling water
|
PDF (Experiment description) |
C1.1.2.2 Melting and solidification curve of tin (de)
|
PDF (Experiment description) |
C1.7.2.1 Determination of acidity (pKa value) by titration
|
PDF (Experiment description) |
C1.7.2.2 Analysis of triprotic phosphoric acid by titration
|
PDF (Experiment description) |
C1.7.3.1 Determination of the enthalpy of solution of salts
|
PDF (Experiment description) |
C2.2.2.2 The automated Blue Bottle Experiment - a reversible redox reaction
|
PDF (Experiment description) |
C2.3.1.1 The calorific value of coal
|
PDF (Experiment description) |
C2.3.1.3 The calorific value of fuel oil
|
PDF (Experiment description) |
C2.3.2.1 Fractionated petroleum distillation with a bubble tray column
|
PDF (Experiment description) |
C2.3.3.1 Boiling range distribution of petrol
|
PDF (Experiment description) |
C2.3.3.2 Boiling range distribution and fractionated distillation of petroleum
|
PDF (Experiment description) |
C2.4.3.1 Distillation of red wine
|
PDF (Experiment description) |
C3.2.1.1 Gas chromatographical analysis of cigarette lighter gas (butane gas)
|
PDF (Experiment description) |
C3.2.1.2 Gas chromatographical separation of alcohols - effect of temperature, CPS version
|
PDF (Experiment description) |
C3.3.2.1 The Beer-Lambert law
|
PDF (Experiment description) |
C3.5.1.1 Determination of acid concentration by titration with drop counter
|
PDF (Experiment description) |
C3.5.1.3 Potentiometric titration of iron(II) ions (de)
|
PDF (Experiment description) |
C3.5.2.1 Conductometric titration of a hydrochloric acid solution, CPS variety
|
PDF (Experiment description) |
C3.5.2.2 Conductometric titration of a hydrochloric acid solution with pH measurement
|
PDF (Experiment description) |
C3.5.3.2 Manganometric determination of iron(II) ions
|
PDF (Experiment description) |
C3.6.2.1 Continuous measurement of carbon dioxide concentration in the classroom
|
PDF (Experiment description) |
C3.6.4.2 Determination of the content of phosphoric acid in a cola drink
|
PDF (Experiment description) |
C3.6.5.1 X-ray fluorescence analysis of chemical composition
|
PDF (Experiment description) |
C3.6.5.2 The chemical composition of a brass specimen
|
PDF (Experiment description) |
C4.1.1.1 Catalytic oxidation of tartaric acid with hydrogen peroxide
|
PDF (Experiment description) |
C4.1.2.2 Determination of the reaction order of the reaction of malachite green with hydroxide ions
|
PDF (Experiment description) |
C4.1.3.1 Reaction of malachite green with hydroxide ions
|
PDF (Experiment description) |
C4.1.3.3 Concentration and reaction rate: Magnesium in strong and weak acids
|
PDF (Experiment description) |
C4.3.3.1 Determination of the heat of combustion of benzoic acid
|
PDF (Experiment description) |
C4.3.3.3 Determination of the enthalpy of neutralisation of acids and alkali solutions
|
PDF (Experiment description) |
C4.3.3.4 Determination of enthalpy of mixing
|
PDF (Experiment description) |
C4.4.1.4 Electrolytic dissociation: Dependence of conductivity on electrolyte concentration
|
PDF (Experiment description) |
C4.4.5.1s Electrolytic polarisation using stand material
|
PDF (Experiment description) |
C4.4.7.1 Investigation of a PEM fuel cell stack
|
PDF (Experiment description) |
C4.4.7.2 Recording the characteristic curves of a PEM fuel cell stack
|
PDF (Experiment description) |
C5.3.2.1 Greenhouse effect
|
PDF (Experiment description) |
C5.3.2.2 Ozone hole problem
|
PDF (Experiment description) |
C5.3.3.1 Recording a breakthrough curve of activated carbon filters
|
PDF (Experiment description) |
C6.1.2.1 Enzymatics: Splitting urea with urease
|
PDF (Experiment description) |
C6.1.2.2 Michealis-Menten kinetics using the enzyme urease
|
PDF (Experiment description) |
C6.1.4.1 Determination of the calorific value of olive oil with a demonstration calorimeter
|
PDF (Experiment description) |
C6.2.1.1 Yeast fermentation - Test of oxygen consumption
|
PDF (Experiment description) |
B1.1.2.1 Determination of the reaction time
|
PDF (Experiment description) |
B1.1.2.2 Determination of nerve conduction velocity
|
PDF (Experiment description) |
B1.1.2.3 Dependence of the reaction time on the type of the stimulus
|
PDF (Experiment description) |
B1.1.2.6 Determination of the frequency-dependent hearing threshold and the hearing threshold
|
PDF (Experiment description) |
D1.4.1.2a Recording the oscillation of a string pendulum Recording using Sensor-CASSY
|
PDF (Experiment description) |
D1.4.1.3a Recording the oscillation of a spring pendulum Recording using Sensor-CASSY
|
PDF (Experiment description) |
D1.5.2.2b Tones, sound, noise and pops Recording using Sensor-CASSY
|
PDF (Experiment description) |
D1.5.2.3a Recording the oscillation of a tuning fork
|
PDF (Experiment description) |
D1.5.3.1b Propagation of sound in the form of pressure fluctuations Recording using Sensor-CASSY
|
PDF (Experiment description) |
D2.3.4.1 How heat insulation depends on the material - Measurement with Sensor-CASSY (de)
|
PDF (Experiment description) |
D2.3.4.2 Heat insulation in a Thermos flask - Measurement with Sensor-CASSY (de)
|
PDF (Experiment description) |
D2.4.2.1c Warming up water until it boils - Measurement with Sensor-CASSY and PC
|
PDF (Experiment description) |
D3.4.6.4a Electrical power and the luminance of light bulbs (de)
|
PDF (Experiment description) |
D3.6.2.1b Stationary armature generator - Measurement via Sensor-CASSY
|
PDF (Experiment description) |
D3.6.2.4b Rotating armature generators for generating alternating voltage - Measurement via Sensor-CASSY
|
PDF (Experiment description) |
D3.6.2.5a Rotating armature generators for generating DC voltage - Measurement via Sensor-CASSY
|