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Hooke's Law
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| - To study the relation between the extension of the
spring and the restoring force exerted by it.
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Oscillations of an elastic along a vertical axis
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- To study the oscillations of an elastic pendulum along avertical axis
- To study the influence of the mass m parameter on theperiod of oscillation.
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Average velocity and instant velocity
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- Study the average velocity
- Study under what conditions this average velocity can beconsidered similar to the instant velocity.
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Study of decelerated travelling motion
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| - To study the decelerated (or slowed down) travelling motion, its acceleration and its velocity.
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Study of the simple pendulum
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| - To verify the isochronism law for small oscillations
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Study of the compound pendulum: harmonic oscillations
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- To study experimentally the oscillations of a compound pendulum
- To show that they can be considered as sinusoidal only in certain conditions
- The parameter whose influence is being studied is the initial angular elongation
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Transformation of potential energy into kinetic energy
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- Study the translatory movement of a body attached to a mass descending vertically
- Study the energy and make conclusions regarding the force of friction.
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745)
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The free fall
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We can:
- approach the study of free fall through the kinetics: y(t), v(t)
- prepare a plotting for obtaining the curve y(t) and v(t)
- determine the acceleration due to gravity g for an object subjected only to the action of its mass and starting without initial velocity |
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The magnetic field created by a solenoid
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- To characterise the magnetic field created by a solenoid
- To study the intensity of this magnetic field
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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The magnetic field: Helmholtz coils
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| - To characterise the magnetic field created by one, then two coils
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Sound recording
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- To acquire different signals
- To measure their period and deduce from this the frequency
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745)
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Measuring the sound level
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| - To measure the sound levels generated by different devices
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Speed of sound
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| - Determine the speed of sound by measuring the shift in time during the reception of a signal on two microphones placed at different distances
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745)
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Study of sound interference: beats
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| - To study the beat frequency in relation to the frequency of the two sounds generated by the interfering tuning forks
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745)
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Study of sound
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- Relate the musical characteristics of a sound to its physical characteristics
- Plot an audiogram
- Analyse a sound produced by a musical instrument and the human voice
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745)
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Measurement of voltages: battery
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- To measure the voltage at the terminals of the "4.5 V" battery when it is in an open circuit, then when it is connected to a lamp
- To repeat the measurement for a 1.5 V battery
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Ohm’s law
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| - To draw the characteristic curve U(I) where U is the DC voltage at the terminals of this dipole and I the current intensity passing through it with the convention indicated above
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Power of a dipole
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- Use the characteristics U(I) of the two dipoles mentioned above
- Calculate the power involved in the two cases and compare with the power specified by the manufacturer
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Characteristic of a diode
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- Plot the characteristic I = f(U)
- Interpret the curve obtained in order to deduce from it the operating mode of the diode
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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The transformer
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| - To study how a transformer steps up or steps down the AC voltage
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745)
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Rectification of an alternate voltage
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- Study, using an automatic measurement acquisition, the double alternance rectification
- Study the smoothening by placing a capacitor in parallel to the output of the bridge of dipoles
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Alternating voltages
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2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745)
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Alternating sinusoidal voltages
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- Study a sinusoidal voltage:
Determine its period and its frequency
Determine the maximum voltage Um
- Measure the effective value of this voltage and compare with the calculated value
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Discharge of a capacitor in a field coil
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- To study the voltage Uc
- To show the influence of the resistance of the circuit
- To visualise the different discharge rates
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Study of sinusoidal 3-phase mode
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- Study, through an automatic measurement acquisition, the sinusoidal 3-phase mode and the temporal shift
- Study the triangular coupling and verify that it is balanced
- Study the star coupling and verify that it is balanced
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Study of a RC circuit
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| - To study, with the help of an automatic acquisition of measurements, the phase difference between uR and uC
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Charge and discharge of a capacitor
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- Observe the change over a time of the voltage uC(t) at the terminals of a condenser connected to a generator ofconstant voltage E in series with a resistance R
- Display of the voltages at the terminals of the generator and the condenser
- Define and measure the time constant t of a circuit RC in series
- Model the curves uC(t)
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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RLC circuit resonance
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| - To study, thanks to an automatic acquisition of measurements, resonance in a forced RLC circuit.
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Study of transistor
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- Plot its characteristics Ic(Ib) and UBE(Ib)
- Study the nature of the dipole base-emitter and the current amplification of a NPN transistor as well as its operation in saturated mode
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745)
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Characteristics of an incandescent lamp
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- To draw the characteristic curve U(I) where U is the DC voltage at the terminals of this dipole and I the current intensity passing through it with the convention indicated above
- To use the curve obtained by specifying the way in which a lamp is to be connected
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Archimedes buoyancy
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| - Study the force exercised by a liquid on a body depending on the depth of immersion
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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Boyle's law
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- To establish the relation P = f (V) at constant temperature for an air sample enclosed in a syringe
- To show that the product P*V is constant at constant temperature
2008 updated list of materials
Generis 5+ is replaced by Physics / Chemistry Science Studio (ref. 000 745) |
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