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[576 74] Plug-in board, DIN A4, STE
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PDF (Description from CASSY Lab) |
P1.7.7.3 Fourier analysis of an electric oscillator circuit
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P3.2.3.1 Measuring current and voltage at resistors connected in parallel and in series
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PDF (Description from CASSY Lab) |
P3.2.3.1 Measuring current and voltage at resistors connected in parallel and in series
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P3.2.4.1 The ammeter as an ohmic resistor in a circuit
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P3.2.4.2 The voltmeter as an ohmic resistor in a circuit
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P3.6.1.1 Charging and discharging a capacitor when switching DC on and off
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P3.6.1.2 Determining the capacitive reactance of a capacitor in an AC circuit
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P3.6.2.1 Measuring the current in a coil when switching DC on and off
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P3.6.3.1 Determining the impedance in circuits with capacitors and ohmic resistors
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P3.6.3.2 Determining the impedance in circuits with coils and ohmic resistors
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P3.6.3.3 Determining the impedance in circuits with capacitors and coils
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P3.6.4.1 Determining capacitive reactance with a Wien measuring bridge
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P3.6.4.2 Determining inductive reactance with a Maxwell measuring bridge
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P4.1.1.3 Recording the current-voltage characteristics of a solar battery as a function of the irradiance
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P4.1.3.1 Recording the current-voltage characteristics of diodes
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P4.1.3.2 Recording the current-voltage characteristics of Zener diodes (Z-diodes)
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P4.1.3.3 Recording the current-voltage characteristics of light-emitting diodes (LED)
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P4.1.5.1 Investigating the diode properties of transistor junctions
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P4.1.5.2 Recording the characteristics of a transistor
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P4.1.5.3 Recording the characteristics of a field-effect transistor
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P4.1.6.1 The transistor as an amplifier
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P4.1.6.2 The transistor as a switch
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P4.1.6.3 The transistor as a sine-wave generator (oscillator)
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P4.1.6.4 The transistor as a function generator
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P4.1.6.5 The field-effect transistor as an amplifier
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P4.1.6.6 The field-effect transistor as a switch
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P4.2.2.1 Unconnected operational amplifier (comparator)
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P6.1.4.4 Determining Plancks constant - Recording the current-voltage characteristics, selection of wavelengths using interference filters on the optical bench
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D3.4.6.2b How electrical power depends on current (de)
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D3.4.6.3b How electrical power depends on voltage (de)
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D3.6.2.3a Stationary armature generators under load
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D3.6.2.6a Generating a three-pole alternating voltage - Demonstration using lamps
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D4.1.1.1a Temperature-dependent resistors (PTC and NTC) - Assembly on plug-in board
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