Practical Exercise
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Datalogging Physics Pratical ExErcisEs p.356 to 372 chEMistry Practical ExErcisEs p.373 to 377 Airnext , the datalogger reinvented ® Biology Practical ExErcisEs p.379 to 386 Earth sciEncE Practical ExErcisEs p.387 to 392 intErFacEs & DataloggEr p.393 to 405 soFtWarE p.406 to 407 sEnsors p.408 to 417 accEssoriEs p.418 to 420 Datalogging NEW AirNeXT® is a data acquisition system that allows you to work without constraints The Pods and interfaces communicate wirelessly giving your experiments an unparalleled level of freedom. Use the interfaces' embedded software to analyse the results and then distribute them to the whole class wirelessly. FIND this product page 396 Livre 342-361.indb 355 355 19/12/13 11:38 DATALOGGING PHYSICS PRACTICAL EXERCISES Practical Exercise: series and parallel circuits Introduction to electricity Observe the differences between a circuit in series and a circuit in parallel Observe different electrical behaviours on the wiring of the circuit Electrical components can be connected in 2 ways: series or parallel. This exercise allows the student to examine the properties of both kinds of circuits. ▲ Parallel circuit. Designation Qty Reference 480 000 480 003 482 201 281 001 283 044 283 073 283 078 Tooxy® interface 1 (or Tooxy® interface - battery powered) 1 Voltage sensor ± 12 V - ± 24 V 1 F3-12 / 1 A Evolio power supply 1 E10 socket on support 3 Red electric lead 4 Black electric lead 4 ▲ Series circuit. Practical Exercise: Ohm's law Study Ohm's law Explore the concepts of voltage and current Experiement to demonstrate the relationship between the Voltage (U) at the terminals of an Ohmic conductor, its resistance (R) and the intensity (I) of the current that travels through it. ▲ Characteristics obtained with 3 resistors of different values. Designation ▲ Ohm's law. 356 356.indd 356 Tooxy® interface (or Tooxy® interface - battery powered) Voltage sensor ± 12 V - ± 24 V Current sensor 0.1 A - 1 A F3-12 / 1 A Evolio power supply Box of resistors to be measured Red electric lead Black electric lead Qty Reference 480 000 480 003 482 201 482 202 281 001 283 155 283 073 283 078 1 1 1 1 1 1 2 3 | Order by phone +33 2 32 29 40 23 | 20/12/13 15:04 Practical Exercise: RLC resonance circuit Rapid determination of the resonance frequency Concept of bandwidth Variable R and C parameters ▲ RLC series circuit. The aim of this practical exercise is to measure the response, in intensity, of an RLC series circuit subject to the sine wave voltage of a function generator. Datalogging is performed automatically by the Foxy ® interface which controls the function generator. This allows the parameters to be varied and several resonance curves to be quickly superimposed. Designation ▲ Resonance curves obtained for different values of resistances. | All our resources jeulin.com | Livre 342-361.indb 357 Foxy® interface TRMS voltage sensor TRMS current sensor GF5+ function generator BNC-banana safety cable Variable resistor 1 kΩ Inductive coil 70 mH nF capacitors box Red electric lead Balck electric lead Qty 1 1 1 1 2 1 1 1 3 3 Reference 485 000 482 035 482 034 293 255 283 386 281 101 281 202 281 260 283 073 283 078 357 19/12/13 11:38 datalogging Physics Practical Exercises Practical Exercise: study of charging a capacitor at constant-voltage Rapid modification of the values of the RC pair Study of discharge possible with the same model Determination of the time constant τ ▲ Experiment showing the charge of a capacitor at constant-voltage. When the capacitor is charging, the voltage at its terminals increases more or less rapidly to reach the value of the voltage imposed by the constantvoltage generator. The model for demonstrating the charge of a capacitor at constant-voltage facilitates the study of the RC dipole. A synchronisation signal can trigger the datalogging system in order to display the beginning of the capacitor's charge. For greater convenience, the capacitor may be discharged immediately using the button located on the rear side of the casing. Designation Foxy® interface TRMS voltage sensor TRMS current sensor RC study model at constant voltage 12 V mains adapter Red electric lead Black electric lead 1 1 1 1 Qty Reference 485 000 482 035 482 034 281 265 1 3 3 281 243 283 073 283 078 ▲ Charge curve of a capacitor at constant-voltage. 358 Livre 342-361.indb 358 | Order by fax +33 2 32 29 43 24 | 19/12/13 11:38 Practical Exercise: Bode diagram Rapid determination of the gain of a system Waveform generator controlled by Foxy® ▲ RC circuit. A Bode diagram is a way of representing the frequency behaviour of a system. It allows simplified graphical resolution, particularly for studying the transfer function of a controlled system. Designation Foxy® interface TRMS current sensor GF5+ function generator BNC-banana safety cable UME safety circuit board 40 sockets UME resistor - 100 Ω UME capacitor - 4.7 µF Red electric lead Black electric lead Qty 1 2 1 2 1 1 1 2 2 Reference 485 000 482 034 293 255 283 386 302 177 302 289 302 280 283 073 283 078 ▲ Asymptomatic gain diagram. | All our resources jeulin.com | 358.indd 359 359 24/12/13 09:39 Datalogging Physics Practical Exercises Practical Exercise: water phase change Study of solidification and melting Ice produced as needed Less preparation, more time for teaching ▲ Solidification and melting performed with the mini-freezer. Water can exist in 3 different states: Solid, Liquid and Gas. We encounter all 3 in our day to day lives. The mini-freezer is a simple and easy to use resource for highlighting the changes in the state of water. When preparing the experiment, don't waste any more time and energy crushing ice or cleaning the benches - the mini-freezer will revolutionise your practical exercises. Designation Qty Reference 486 000 486 001 482 204 701 075 281 083 283 073 283 078 AirNeXT® interface AirNeXT® Pod Fast response temperature sensor Mini-freezer F6F12 / 5 A Evolution® power supply 1 1 1 1 1 Red electric lead Black electric lead 1 1 360 | Technical assistance +33 2 32 29 40 50 | Livre 342-361.indb 360 19/12/13 11:38 Practical Exercise: Boyle-Mariotte's law Simple and visual demonstration of the variation of pressure vs volume Precise control of pressure by a screw piston ▲ Variation of pressure vs volume. Using a simple equipment, repeat the discovery made in the 17th century by Robert Boyle and Edme Mariotte, ascertaining that P x V = cste. The Boyle-Mariotte law describes the effects of pressure on gases at constant temperature. Designation AirNeXT® interface AirNeXT® Pod Pressure sensor 0 / 2000 hPa Mariotte's law model Qty 1 1 1 1 Reference 486 000 486 001 482 104 252 051 ▲ Curve P = f(V). | All our resources jeulin.com | Livre 342-361.indb 361 361 19/12/13 11:38 datalogging Physics Practical Exercises Practical Exercise: Archimedes' principle Experiment simple to implement Demonstrates buoyancy without calculation ▲ Demonstrates buoyancy. Designation ▲ Buoyancy is equal to the weight of the volume of liquid displaced. 362 Livre 362-381.indb 362 Two centuries before Christ, Archimedes had the insight that all bodies immersed, either partly or entirely, in a liquid are subject to a specific force. He then demonstrated that this force is equal to the weight of the volume of a liquid displaced. Use Tooxy® to repeat this experiement. Qty Reference 480 000 480 003 482 047 242 007 701 294 701 002 323 005 723 222 Tooxy® interface 1 (or Tooxy® interface - battery powered) 1 Force sensor 2 Archimedes' principle set 1 Modumontage® support 1 Labjack 100 x 100 mm 1 Mass tray 1 Dishes 1 | Order by phone +33 2 32 29 40 23 | 19/12/13 14:03 Practical Exercise: Hooke's law Determination of the spring constant Both extension and compression study Simplified operating procedure ▲ Highlights Hooke's law. A spring subject to no force has a certain length, that we define as no-load or length at rest ℓ0. If we apply a force of intensity F to it, it extends to a length Δℓ. This experiment highlights the relationship that connects the variation in length Δℓ and the extension / compression force F. The suggested operating procedure ensures accurate results. Designation Tooxy® interface (or Tooxy® interface - battery powered) Force sensor Pack of 4 springs 5 - 10 - 20 and 40 N Modumontage® stand Ruler ▲ Precise measurement of spring extension. | All our resources jeulin.com | Livre 362-381.indb 363 Qty Reference 1 480 000 1 480 003 1 482 047 1 323 010 1 701 294 1 313 068 363 19/12/13 14:03 datalogging Physics Practical Exercises Practical Exercise: free fall Free fall with the Motion sensor •Qualitative approach •Ultra-simple to use Teach your students about the existence of gravity. This practical exercise provides an introduction to the concepts of position and speed. Designation Qty AirNeXT® interface AirNeXT® Pod 1 1 Motion sensor 1 Reference 486 000 486 001 482 058 ▲ Study on free fall with the Motion sensor. Free fall with Photogates •Quantitative approach •Accurate results guaranteed ▲ Position vs time for a straight and uniformly-accelerated movement. The Photogate can find the position and speed of the ball vs time. The ball is released by a mechanical device. The software's dedicated module makes accurate and reliable measurements. Designation AirNeXT® interface AirNeXT® pod Photogate sensor Free fall Photogate Qty 1 2 2 1 3 Reference 486 000 486 001 482 048 453 035 453 026 Free-fall with fast camera •Video acquisition •High speed phenomena The aim of this practical exercise is to study a ball in free fall, then, using computerised processing through video, to verify that g, the acceleration of gravity, is equal to 9.81 m.s-2. 364 Livre 362-381.indb 364 Designation Fast camera Modumontage® stand Qty 1 1 Reference 572 000 701 293 | Order by fax +33 2 32 29 43 24 | 19/12/13 14:03 Practical Exercise: 3 Newton's laws Negligible friction → → Study of the inertia principle: ∑ Fext = 0 → → Study of the fundamental principle of dynamics: ∑ Fext = m a → → Study of the action-reaction principle: F A/B= - F B/A Newton's 1st law The trolley is set horizontally on the mechanical bench. The student gives it a push and sees that it moves with a straight and uniform motion: this is Newton's first law. Designation Qty AirNeXT® interface AirNeXT® Pod 1 1 Motion sensor Mechanical bench Labjack 100 x 100 mm 1 1 1 Reference 486 000 486 001 482 058 332 043 701 002 ▲ Straight and uniform motion. Newton's 2nd law ▲ Trolley in straight and uniform-accelerated motion on inclined bench. Designation Simply incline the mechanical bench and release the trolley to observe its acceleration: this is Newton's second law. Qty AirNeXT® interface 1 Motion sensor AirNeXT® Pod Mechanical bench Box of hooked masses 1 1 1 1 Reference 486 000 482 058 486 001 332 043 703 016 Newton's 3rd law By pulling the Force sensors (as shown), the student can observe, via the sensor display, that when Body A exerts a force on Body B, Body B will, simultaneaously, exert an equal and opposite force on Body A: this is Newton's third law. Designation AirNeXT® interface AirNeXT® Pod Force sensor Qty 1 2 2 Reference 486 000 486 001 482 047 ▲ Action-Reaction principle. | All our resources jeulin.com | Livre 362-381.indb 365 365 19/12/13 14:03 datalogging Physics Practical Exercises Practical Exercise: study of an oscillator Complete study of oscillations Concept of damping Changes to kinetic and potential energy ▲ Variation of the angle vs time. ▲ Practical Exercise: study of an oscillating system with AirNeXT® . By using the pendulum associated to an electronic stepped pulley and an Angle sensor, it is possible to record the variation in the value of the angle vs time. This enables the study of the pendulum period vs its length By using the mathematical tools available in the software we can determine the potential and kinetic energies of the oscillator. Designation ▲Variation of the energy vs time and synchronised video. 366 Livre 362-381.indb 366 AirNeXT® interface AirNeXT® Pod Angle sensor Electronic stepped pulley Modumontage® stand Polynux® bosshead Pendulum kit Modumontage® ballast Qty 1 1 1 1 1 1 1 1 Reference 486 000 486 001 482 052 453 109 701 293 703 452 222 008 703 044 | Technical assistance +33 2 32 29 40 50 | 19/12/13 14:03 Practical Exercise: magnetic field in a solenoid Measurement over two axes Axial guide for moving the teslameter's probe ▲ Variation of the magnetic field when a biaxial probe is introduced into the solenoid. The student observes the changes in the magnetic field by moving the teslameter's probe within the solenoid. Designation AirNeXT® interface AirNeXT® Pod Magnetic field sensor Solenoid Red electric lead Black electric lead F6F12 / 5 A Evolution® power supply Qty 1 1 1 1 1 1 1 Reference 486 000 486 001 482 045 292 012 283 073 283 078 281 083 Practical Exercise: Helmholtz coils This practical exercise allows the student to observe the changes in a magnetic field within flat coils with variable spacing particularly when they are in the Helmholtz configuration. Designation AirNeXT® interface AirNeXT® Pod Magnetic field sensor Flat coils with variable spacing Red electric lead Black electric lead F6F12 / 5 A Evolution® power supply | All our resources jeulin.com | Livre 362-381.indb 367 Qty 1 1 1 1 1 2 1 Reference 486 000 486 001 482 045 292 014 283 073 283 078 281 083 367 19/12/13 14:03 datalogging Physics Practical Exercises Practical Exercise: speed of sound in air Can be performed in a noisy environment Ultra-simple to set-up and perform Easily measure the speed of sound in air using two sound sensors. The software's dedicated module provides quick and easy results. The student generates the wave by clapping, thus starting the measurement through synchronised input. Designation Foxy® interface Sound sensor Modumontage® stand Synchro clap Red electric lead Black electric lead 368 Livre 362-381.indb 368 Qty 1 2 1 1 1 1 Reference 485 000 482 049 701 294 453 127 283 073 283 078 ▲ Time difference measurement. | Order by phone +33 2 32 29 40 23 | 19/12/13 14:03 Practical Exercise: spectral analysis of a signal 3-D spectrum analysis No mathematical tools required ▲ Fundamental and harmonics. ▲ Complex signal and its spectrum. Construct a complex signal from simple signals using Spectrasons®. The software's dedicated application can quickly perform spectral analysis without using the Fourier transform. Designation Foxy® interface Spectrasons® Red electric lead Black electric lead Loudspeaker (optional) ▲ 3-D view of simple and complex signals. | All our resources jeulin.com | Livre 362-381.indb 369 Qty 1 1 4 4 1 Reference 485 000 222 054 283 073 283 078 302 061 369 19/12/13 14:03 datalogging Physics Practical Exercises Practical Exercise: the Doppler effect Experiments reproducible and repeatable Accurate measurements Motion of a body at a constant speed s Determination of the frequency offset related to the Doppler effect thanks to the software's tool. The aim of the exercice is to show the Doppler relationship and to apply it to the measurement of speed. The graph showing the relationship between speed and frequency offset is performed in several stages: calculation of the speed of the wave, comparison between the speed of the moving body and the frequency offset and construction of the Doppler relationship. Designation Foxy® interface Doppler set Photogate sensor Photogate Green electric lead Red electric lead Black electric lead Qty 1 1 1 1 2 3 3 Reference 485 000 222 140 482 048 453 026 283 575 283 073 283 078 s Plot of the Doppler frequency offset according to the speed of the trolley. 370 Livre 362-381.indb 370 | Order by fax +33 2 32 29 43 24 | 19/12/13 14:03 Practical Exercise: aerodynamic properties Quick calculation of the Cx for different profiles Create your own prototypes Compare the aerodynamic resistance forces for different objects placed in a laminar flow and establish, for each of them, the relationship between the aerodynamic resistance force and the speed of the fluid. Determine, using digital tools, the drag coefficients Cx for the studied shapes. Designation s Determination of Cx. | All our resources jeulin.com | Livre 362-381.indb 371 Qty Foxy® interface 1 Wind tunnel 1 Accessories for the wind tunnel 1 Pack of blank shapes 1 Set of shapes with equal transverse 1 sections Green electric lead 1 Yellow electric lead 1 Black electric lead 2 Reference 485 000 243 013 243 029 243 031 243 024 283 575 283 576 283 078 371 19/12/13 14:03 datalogging Physics Practical Exercises Practical Exercise: study of diffraction Simply observe a diffraction figure Take an experimental approach Study the characteristics of a photocomposed item Connected to the Foxy® interface, the light-sensitive receiver can plot the profile of a diffraction figure. Using calibrated wires, the student can plot a standard curve and it use it to determine the width of a wire of unknown dimensions. Designation Foxy® interface Photosensitive receiver Green laser diode Slide holder Set of calibrated wires Ø 40, 60, 80, 100, 120 µm Red electric lead Black electric lead 372 Livre 362-381.indb 372 1 1 1 1 1 Qty Reference 485 000 201 017 201 036 213 017 212 028 3 3 283 073 283 078 ▲ ▲ Study of diffraction with the photosensitive receiver. Determination of the diameter of a wire. | Technical assistance +33 2 32 29 40 50 | 19/12/13 14:03 datalogging Chemistry practical exercises Practical Exercise: what is the pH? Concept of pH Comparison of pH meter / pH paper Simple chemistry experiments Study of pH ▲ Measurement with pH paper. Show your students the advantages and disadvantages of two different ways of measurement. Designation Tooxy® interface (or Tooxy® interface - battery powered) pH sensor pH electrode Beaker 250 mL pH paper ▲ pH measurement in standalone mode with Tooxy®. Qty Reference 480 000 480 003 482 203 703 408 723 151 107 238 1 1 1 1 1 1 Dilution of an acid ▲ Measurement in connected mode. Perform your first experiments in chemistry! Address essential concepts, such as dilution and pH, in a simple and educational way. Designation ▲ Measurement in standalone mode. | All our resources jeulin.com | Livre 362-381.indb 373 Qty Reference 480 000 480 003 482 203 703 408 701 399 723 151 723 247 Tooxy® interface 1 (or Tooxy® interface - battery powered) 1 pH sensor 1 pH electrode 1 Magnetic stirrer 1 L 1 Beaker 250 mL 1 Graduated pipettes 10 mL 1 373 19/12/13 14:03 datalogging Chemistry practical exercises Practical Exercise: acid / base titration Precisely-determined equivalent volume ▲ Performing titration with the Ergolab® burette. The Ergolab® Burette measures and displays on a computer screen the volume poured during the tittration. The student avoides errors and obtains a high number of data points to best show the change in pH. Designation Foxy® interface pH sensor pH electrode Ergolab® electronic burette 12 V mains adapter Magnetic stirrer 1 L Beaker 250 mL Yellow electric lead Black electric lead 374 Livre 362-381.indb 374 Qty 1 1 1 1 1 1 1 1 1 Reference 485 000 482 203 703 408 701 338 281 243 701 399 723 151 283 576 283 078 ▲ Determination of equivalent volume using the tangents method. | Order by phone +33 2 32 29 40 23 | 19/12/13 14:03 Practical Exercise: the Volta cell Introduction to electrochemistry Simple to implement ▲ Measurement in connected mode. In 1800, Alessandro Volta published an article describing the functioning of the first electric cell: the Volta cell. Now it is your turn to produce electricity by forming a pile consisting of a succession of layers of copper, felt soaked in salt water, and zinc. Designation ▲ Measurement in standalone mode. Tooxy® interface (or Tooxy® interface - battery powered) Voltage sensor ± 12 V - ± 24 V Red electric lead Black electric lead Crocodile clips Volta cell Qty Reference 1 480 000 1 480 003 1 482 201 1 283 073 1 283 078 1 283 032 1 282 020 Practical Exercise: conductivity of salt water Use of a conductivity sensor Requires little equipment Show your students the relationship between salinity and conductivity of water. Designation Qty Reference 480 000 480 003 482 056 723 151 Tooxy® interface 1 (or Tooxy® interface - battery powered) 1 Conductivity sensor 1 Beaker 250 mL 4 | All our resources jeulin.com | Livre 362-381.indb 375 375 19/12/13 14:03 datalogging Chemistry practical exercises Practical Exercise: study of an exothermic reaction Supercooling Immediate visual result Concept of an unstable state Introducing the thermometer into the solution immediately triggers crystallisation, which is accompanied by a rise in temperature. ➀ ➁ ➂ ➃ ➄ ▲ Crystallisation of the solution. ▲ Supercooling curve for the solution. Designation Qty Tooxy® interface (or Tooxy® interface - battery powered) Fast response temperature sensor Sodium ethanoate supercooling kit Hot plate Beaker 400 mL 1 1 1 1 1 2 Reference 480 000 480 003 482 204 107 223 701 546 713 607 Practical Exercise: study of an endothermic reaction Production of a cooling mixture This experiment shows a physical process accompanied by a reduction in temperature: it is an endothermic reaction. Perform the most fundamental experiments with Tooxy®. Name Qty Reference 480 000 480 003 482 101 713 131 107 115 Tooxy® interface 1 (or Tooxy® interface - battery powered) 1 Temperature sensor -50/+150°C 1 900 mL crystalliser 1 Salt (1 kg) 1 376 Livre 362-381.indb 376 ▲ Change in temperature vs time in a cooling mixture. | Order by fax +33 2 32 29 43 24 | 19/12/13 14:03 Practical Exercise: colorimetry - Beer-Lambert's law Relationship between absorbance and concentration of a coloured solution Study of Beer-Lambert's law ▲ Curve representing absorbance vs concentration. Colorimetry is a method of titration that consists of sending a beam of monochromatic light through a tank containing a coloured solution and measuring the light absorbed by the solution. This measurement of absorbed light corresponds to an optical density. Beer-Lambert's law allows the connection to be made between the optical density of a solution and its molar concentration. We can therefore establish a linear relationship between the optical density and the concentration. Designation AirNeXT® interface AirNeXT® Pod Voltage sensor ± 12 V - ± 24 V Initio® AT colorimeter 12 V mains adapter Tanks for colorimeter Red electric lead Black electric lead 440 nm monochromatic filter Qty 1 1 1 1 1 1 1 1 1 Reference 486 000 486 001 482 201 701 358 281 243 701 119 283 073 283 078 703 548 | All our resources jeulin.com | Livre 362-381.indb 377 Other monochromatic filters of different wavelengths available: Designation 470 nm monochromatic filter 490 nm monochromatic filter 520 nm monochromatic filter 550 nm monochromatic filter 580 nm monochromatic filter 590 nm monochromatic filter 680 nm monochromatic filter Reference 703 549 703 550 703 551 703 552 703 553 703 554 703 555 377 19/12/13 14:03 PadLab Application available for free from the Apple Store Wichever Jeulin interface you're using, all saved experiments are immediately displayable on an iPad. Your students can then see their results on their tablets whatever the location: in the classroom or at home. the datalogging application for iPad Using the PadLab application, you can see your students' results on your iPad, whether the data acquisition is finished or not. Firstly, you can ensure that the practical exercise is properly carried out, and secondly, you facilitate data sharing by making the results available to others. 378 Livre 362-381.indb 378 19/12/13 14:03 datalogging Biology Practical ExErcisEs Practical Exercise: study of heart rate Easy-to-use Instant results Each student can determine its heart rate by holding the electrodes. They can compare the values obtained at rest and during effort. Designation AirNeXT® interface AirNeXT® Pod Heart rate sensor Qty 1 1 1 Reference 486 000 486 001 482 105 Practical Exercise: performing ECG Totally new experiments Wireless link 100 metres range AirNeXT® enables you to perform your experiments outdoor during sport sessions. Fixed to the belt, the Pod records the student's ECG and simultaneously transfers the graph to the interface. Designation AirNeXT® interface AirNeXT® Pod Hand grips Electrophysiology sensor | All our resources jeulin.com | Livre 362-381.indb 379 Qty 1 1 1 1 Reference 486 000 486 001 482 033 482 046 379 19/12/13 14:04 datalogging Biology practical exercises Practical Exercise: effort / rest respiration rate Easy to hold No assembly necessary Respiration rate corresponds to the number of respiration cycles per minute (inspirations and expirations), measured on a person. The aim of this practical exercise is to observe these cycles during phases of rest and effort. Designation AirNeXT® interface AirNeXT® Pod Spirometer sensor Mouthpieces (pack of 30) Antibacterial filter Qty 1 1 1 1 1 Reference 486 000 486 001 482 109 453 009 453 046 Practical Exercise: gaseous exchanges No calibration necessary Easy assembly Measure the change in the O2 level content in the air during a respiration cycle. Simultaneously measure the volume of expired air. Deduce the nature of the gaseous exchanges during respiration. Designation AirNeXT® interface AirNeXT® Pod Spirometer sensor Mouthpieces (pack of 30) Antibacterial filter Human respiration chamber O2 sensor - Standard O2 probe - Standard 380 Livre 362-381.indb 380 Qty 1 2 1 1 1 1 1 1 Reference 486 000 486 001 482 109 453 009 453 046 453 081 482 106 453 052 | Order by phone +33 2 32 29 40 23 | 19/12/13 14:04 Practical Exercise: calculation of VO2 max Estimation of VO2 max and VMA Configuration of the exercise Physiological characteristics of the subject Values calculated by the software Change in the heart rate and volume of oxygen consumed Extrapolation of the volume of O2 until maximum heart rate is reached Determine the value of VO2 max to illustrate physiological changes during effort. The software's module dedicated to the experiment guides you during setup and execution phases. Designation Foxy® interface Electrophysiology sensor O2 sensor - Advanced O2 probe - Advanced Spirometer sensor Mouthpieces (pack of 30) Antibacterial filter Human respiration chamber | All our resources jeulin.com | 380.indd 381 Qty 1 1 1 1 1 1 1 1 Reference 485 000 482 046 482 039 453 001 482 109 453 009 453 046 453 081 381 02/01/14 13:38 datalogging Biology practical exercises Practical Exercise: respiration in water / in air Simple to set up Can be performed in air and in water ▲ Animal respiration in air. ▲ Animal respiration in water. Observe the change in the O2 level when an animal is present. This experiment can be performed in the air or in water with the same equipment. Designation AirNeXT® interface AirNeXT® Pod O2 sensor - Standard O2 probe - Standard Animal respiration chambers 382 Livre 382-401.indb 382 Qty Reference 1 486 000 1 486 001 1 482 106 1 453 052 1 453 066 ▲ Change in the O2 level vs time. | Order by fax +33 2 32 29 43 24 | 19/12/13 14:07 Practical Exercise: study of fermentation Study of alcoholic and lactic fermentation Simultaneous measurement of key parameters ▲ Metabolism of yeast. Yeast respires aerobically when oxygen is present; fermentation starts when all the oxygen is consumed. The aim of this experiment is to study the metabolism of yeast. This experiment can be performed with the fermentation chamber ref. 453 040 or the Bioreactor 3 ref. 453 064. Designation Foxy® interface Ethanol sensor Ethanol probe O2 sensor - Advanced O2 probe - Advanced CO2 sensor - Advanced CO2 probe - Advanced Turbidity sensor Magnetic stirrer 1 L Fermentation chamber Qty 1 1 1 1 1 1 1 1 1 1 Reference 485 000 482 053 453 084 482 039 453 001 482 044 453 076 482 050 701 399 453 040 ▲▲ Changes in O2 and CO2 level during fermentation. | All our resources jeulin.com | Livre 382-401.indb 383 383 19/12/13 14:07 datalogging Biology practical exercises Practical Exercise: photosynthesis Quick to set up Long-duration measurement Photosynthesis in water ▲ Photosynthesis with the Bioreactor 3. The aim of the exercise is to show the gaseous exchanges during photosynthesis. Simply alternate the phases of light and dark to see the variation in rates of O2 and CO2. The sensors include innovative functionality such as probe diagnosis and locking of the calibration parameters. Designation Foxy® interface Light sensor - Advanced O2 sensor - Advanced O2 probe - Advanced CO2 sensor - Advanced CO2 probe - Advanced Bioreactor 3 12 V mains adapter Qty 1 1 1 1 1 1 1 1 Reference 485 000 482 037 482 039 453 001 482 044 453 076 453 064 281 243 ▲ Variation in the parameters used during photosynthesis. Photosynthesis in air The clamp is magnetic for quick and easy installation. Once the leaves have been enclosed and the probes inserted, datalogging can begin. Designation Foxy® interface O2 sensor - Advanced O2 probe - Advanced CO2 sensor - Advanced CO2 probe - Advanced Photosynthesis clamp Dissection lamp Base with rod Perpendicular bosshead 384 Livre 382-401.indb 384 Qty 1 1 1 1 1 1 1 1 1 Reference 485 000 482 039 453 001 482 044 453 076 453 131 566 013 701 065 703 096 | Technical assistance +33 2 32 29 40 50 | 19/12/13 14:07 Practical Exercise: the myotatic reflex Simple to implement Video synchronisation possible Difference between reflex movement and voluntary movement The reflex contraction of a muscle triggered by its own stretching is called the myotatic reflex. Associated with the Martoreflex, the electrophysiology sensor can highlight the electrical response of the muscle. The fast camera makes it possible to see the delay between the electrical activity of the muscle and the movement of the foot. Designation Foxy® interface Electrophysiology sensor Electronic Martoreflex Qty 1 1 1 Reference 485 000 482 046 453 068 ▲ Response of the muscle to percussion on the Achilles tendon. Practical Exercise: blood pressure Measurement of systolic and diastolic pressures The student determines the systolic and diastolic pressures using a stethoscope, reading the pressure directly on the sensor display. It is also possible to have an on-screen display of these automatically-represented pressures in the correct units. Designation Tooxy® interface (or Tooxy® interface - battery powered) Stethoscope Blood pressure cuff Blood pressure sensor Qty Reference 480 000 480 003 554 050 554 049 482 051 1 1 1 1 1 | All our resources jeulin.com | Livre 382-401.indb 385 385 19/12/13 14:07 datalogging Biology practical exercises Practical Exercise: stimulation of a frog's nerve Characterisation of the action potential of the frog's sciatic nerve Dedicated module ▲ Extraction of the sciatic nerve. ▲▲ Stimulation of the frog's nerve with Foxy® and the nerve tank. Observe the response of the frog’s sciatic nerve to electrical stimulation after the nerve has been removed and connected to the electrodes on the nerve tank. The dedicated module guides you throughout this experiment, to display the stimulation artefact and the response of the nerve. Designation Foxy® interface Electrophysiology sensor Nerve tank DIN-2 bananas sockets cable Red electric lead Black electric lead Qty 1 1 1 1 1 1 Reference 485 000 482 046 553 032 283 389 283 479 283 480 ▲ Display the response of the nerve to electrical stimulation. 386 Livre 382-401.indb 386 | Order by phone +33 2 32 29 40 23 | 19/12/13 14:07 datalogging Earth Science practical exercises Practical Exercise: oceanic expansion Revealing magnetic profiles Understand magnetic anomalies Calculate oceanic expansion rates This model associated with AirNeXT® allows measurement of the variations in the magnetic field of a model of the sea floor. Two transversal scans of the ocean ridge provide two profiles, thus allowing the bands of magnetic anomalies to be reconstituted. | All our resources jeulin.com | Livre 382-401.indb 387 Designation AirNeXT® interface AirNeXT® Pod Magnetic field sensor Ocean expansion model Qty 1 1 1 1 Reference 486 000 486 001 482 045 507 041 387 19/12/13 14:07 datalogging Earth Science practical exercises Practical Exercise: bathymetry Innovative practical exercises in earth science Dedicated module for guiding the students The aim of this practical exercise is to make seismic-reflection profiles and take bathymetric readings. Here, the seismic waves are replaced by ultrasound waves created by the ultrasound sensor. Models consisting of 2 different types of foam represent the ocean (foam permeable by ultrasound) and the crust (foam reflecting ultrasound). ▲ 3-D representation of a seabed created with the bathymetry model and the ultrasound sensor. Designation ▲ Animation on the operating principle of seismic reflection. 388 Livre 382-401.indb 388 Foxy® interface Ultrasound sensor Bathymetry model Hydrocarbon detection model Passive margin model Mobile blocks model Qty 1 1 1 1 1 1 Reference 485 000 482 054 453 134 453 133 453 135 453 136 | Order by fax +33 2 32 29 43 24 | 19/12/13 14:07 Practical Exercise: speed of seismic waves Samples of different rocks cut to appropriate size Clear and accurate interpretation of results Speed of seismic waves according to the propagation medium This experiment demonstrates the variation of the speed of seismic waves depending on the propogation medium using Sismo sensors and Foxy® interface. Designation ▲ Determination of the wave's travel time. ▲ Performing a series of acquisitions for the statistical processing of data. Foxy® interface Seismic sensor Synchro clap Red electric lead Black electric lead Rock bars Qty 1 2 1 1 1 1 Reference 485 000 482 055 453 127 283 474 283 473 506 123 Speed of seismic waves according to the temperature This practical exercise shows the variation of the speed of seismic waves according to the temperature of the medium in which they propagate. The "seismic and temperature" model is composed of an appropriate material that can be placed in a freezer or an oven and a unit which triggers the measurement. Designation Foxy® interface Seismic sensor -50/+150°C temperature sensor Seismic and temperature model 12 V mains adapter Qty 1 1 1 1 1 Reference 485 000 482 055 482 101 507 043 281 243 ▲ Study on the speed of seismic waves according to the temperature. | All our resources jeulin.com | Livre 382-401.indb 389 389 19/12/13 14:07 datalogging Earth Science practical exercises Practical Exercise: pressure in a liquid Ultra-simple to use Requires little equipment Students can easily observe the relationship between pressure and depth in a liquid. Designation Tooxy® interface (or Tooxy® interface - Battery powered) Pressure sensor Graduated tube showing pressure in liquids 1000 mL graduated cylinder Qty Reference 480 000 480 003 482 104 453 070 1 1 1 1 1 713 034 Practical Exercise: thermal and phonic insulation Comparison of thermal and phonic insulations Integrated buzzer and heating elements ▲ Showing acoustic insulation. Change the nature and thickness of insulating materials to compare the thermal and acoustic insulating properties of each. Designation Qty Reference 480 000 480 003 482 101 189 040 Tooxy® interface 1 (or Tooxy® interface - Battery powered)1 Thermometer sensor -50/+150°C 2 Phonic and thermal 1 insulation model 12 V mains adapter 1 Sound sensor 2 Modumontage® stand 2 Polynux® bosshead 2 390 Livre 382-401.indb 390 281 243 482 049 701 293 703 452 ▲ Showing thermal insulation. | Technical assistance +33 2 32 29 40 50 | 19/12/13 14:07 Practical Exercise: monitoring atmospheric pressure and sunshine Autonomous pod Measurement over several days ▲ Sunlight monitoring. The pod’s large internal memory and long life battery allows for totally autonomous experiments to be carried out over several days without separate interface or connection to a computer. The data is easily recoverable using the wireless connection between the pod and AirNeXT® interface. Designation ▲▲Pressure monitoring. AirNeXT® interface AirNeXT® Pod Pressure sensor Light sensor - Standard Qty 1 2 1 1 Reference 486 000 486 001 482 038 482 102 Practical Exercise: weather forecast 4 in 1 sensor Measurements outside Use a single sensor to measure your weather parameters: wind speed, ambient temperature, relative humidity and atmospheric pressure. Designation Qty AirNeXT® interface AirNeXT® Pod 1 1 Weather sensor 1 Reference 486 000 486 001 482 066 | All our resources jeulin.com | Livre 382-401.indb 391 391 19/12/13 14:07 datalogging earth science practical exercises Practical Exercise: conduction - convection No risk of burns Visual experiment ▲ Appearance 2 min after the introduction of the colourant. ▲ Appearance 7 min to 8 min after the introduction of the colourant. ▲ Evolution of the temperature in the upper part (red curve) and lower part (blue curve) of the chamber. Simple equipment for showing the phenomena of convection and conduction. Just add a few drops of colourant to the tank to observe the rising warm currents. Change the viscosity to obtain greater or lesser temperature differentiations. Use AirNeXT® to monitor upper and lower Temperatures. 392 Livre 382-401.indb 392 ▲ Appearance 15 min after the introduction of the colourant. Designation AirNeXT® interface AirNeXT® Pod -50/+150°C temperature sensor Convection / conduction chamber Qty 1 2 2 1 Reference 486 000 486 001 482 101 507 056 | Order by phone +33 2 32 29 40 23 | 19/12/13 14:07 The Datalogger Reinvented | All our resources jeulin.com | Livre 382-401.indb 393 393 19/12/13 14:08 The new datalogger AirNeXT® datalogger = 1 interface + 1 or several Pods ▲ Pod. ▲ Interface. Long-distance wireless communication between the interface and the Pods Embedded software Up to 100,000 measurements per second Up to 16 pods per interface ▲ ECG with AirNeXT®. ▲ Convection - conduction with AirNeXT®. 394 Livre 382-401.indb 394 | Order by fax +33 2 32 29 43 24 | 19/12/13 14:08 The new-generation interface Easy and intuitive navigation Dedicated applications ▲ Water solidification curve. Communication possible between interfaces Standalone use or connected to a computer Automatic installation as soon as it is connected to a computer AirNeXT ® software automatically launches. Just connect the interface to a computer and you can directly make your first data acquisitions. Wireless system enables you to place each sensor where you wish while keeping the interface at a distance. | All our resources jeulin.com | Livre 382-401.indb 395 395 19/12/13 14:08 datalogging interFaces & datalogger The Pod: ultra-versatile device Data storage system 100 metres of line-of-sight range If the connection with the interface is broken, the data storage system avoids any loss of measurements: they are sent automatically once the connection resumes. State indicator Direct reading of the measured value Rechargeable lithium battery technology The long battery life and integrated memory allows for measurements over the period of 1 week Protective elastomer Associated with a large range of sensors, the Pod becomes a measuring instrument, that can replace your traditional devices ▲ Recording the atmospheric pressure and the temperature during one week 396 Livre 382-401.indb 396 | Technical assistance +33 2 32 29 40 50 | 19/12/13 14:08 A collection of dedicated applications Available directly in the interface Simplified configuration Guaranteed results Change of state Just place a temperature sensor in a Pod and press "start" to begin data acquisition. ▲ Water solidification curve. Environmental study For each measurement reading, it is possible to specify the location or any other information. The data is presented directly in a table. Students can display the results in the form of histograms, making it easier to compare the results. s Display of the "spreadsheet" function. Study of pH This application is designed to simply implement dilution of an acid or basic solution. ▲ Dilution of a basic solution. e Cardio-respiratory frequency With the heart rate sensor, the spirometer sensor or both, you can see the physiological changes during effort. ▲ Change in heart rate with AirNeXT®. Human respiration No calibrasion is necessary. Once the assembly is finished, the student blows into the Spirometer sensor and the oxygen probe measures the level of O2. The calculation, performed automatically by the software, gives the volume of oxygen consumed as a function of time. ▲ Volume of oxygen consumed. | All our resources jeulin.com | Livre 382-401.indb 397 397 19/12/13 14:08 datalogging interFaces & datalogger An interactive class The teaching mode Follow the progress of the class Evaluation of student's experiments Sharing results Collect data from students' interfaces Teacher's desk Student's work surfaces ▲ Supervision of students' interfaces by the teacher interface. The teacher's experiment Setting up more costly experiments Safety guaranteed during risky experiments Data broadcasting to student's interfaces Teacher's desk 398 Livre 382-401.indb 398 ▲ Transfer of data from the teacher interface to the students' interfaces. Student's work surfaces | Order by phone +33 2 32 29 40 23 | 19/12/13 14:08 Simplicity and innovation | All our resources jeulin.com | Livre 382-401.indb 399 399 19/12/13 14:08 datalogging interFaces & datalogger The ultra-high-performance logging interface 15-MHz sampling frequency on each sensor input Embedded software Hassle-free computing: Plug & Measure system ▲ ▲ Transfer of thermal energy. 400 Livre 382-401.indb 400 Study of the speed of seismic waves according to the temperature. | Order by fax +33 2 32 29 43 24 | 19/12/13 14:08 4 differential analogue inputs, 4 ranges each: ± 30 V, ± 15 V, ± 5 V, ± 0.25 V Increase the number of simultaneous acquisitions. Use your devices with analogue outputs. Study the current between 2 lines of a triple-phase signal. A 15-MHz sampling rate on each of the 4 sensor inputs New experiments possible (ultrasound, signal transmission by optical fibre,…). High-quality results in all situations (study of an electric circuit, stimulation of a frog's nerve,…). 1 USB port for webcam or Jeulin fast camera The camera connects directly to the interface and the image processing is done with the software. 2 analogue outputs ± 10 V Work on modulation without using another device or simulate a function generator. 1 trigger input Synchronise your measurements. | All our resources jeulin.com | Livre 382-401.indb 401 Read the measurement on the sensor Use your interface as a measuring instrument (pH-meter, conductimeter) 401 19/12/13 14:08 DATALOGGING INTERFACES & DATALOGGER Plug & Measure system No driver and no installation: the software is embedded in the interface Connect the interface to a computer and the software will launch automatically Start measuring immediately ▲ Software runs automatically upon connection to the PC. ▲ Software's application launcher. ▲ Starting the experiment. Foxy®: bench instrument A display allows the student to read the value directly on the sensor ▲ Probe calibrated directly on the sensor. A multi-function system 402 Livre 402-421.indb 402 Study of ultrasound. ▲ Can be used as a four-channel oscilloscope Can control or simulate a function generator Wide range of sensors for all your experiments | Technical assistance +33 2 32 29 40 50 | 19/12/13 14:12 Instantaneous measurement | All our resources jeulin.com | Livre 402-421.indb 403 403 19/12/13 14:12 DATALOGGING INTERFACES & DATALOGGER 2 functioning modes ▲ Measurement mode ▲ Switch on Tooxy®. ▲ Insert a sensor. ▲ Read the value on sensor's screen. Datalogging mode ▲ Connect to a computer via USB. ▲ Software launched automatically. ▲ Choose an application and start experiment. 2 measuring channels Embedded software Hassle-free computing: Plug & Measure system Built-in digital oscilloscope 404 Livre 402-421.indb 404 | Order by phone +33 2 32 29 40 23 | 19/12/13 14:12 The AirNeXT® datalogger AirNeXT® interface Pod • Wireless link between interface and Pods • Communication between interfaces • No software installation • Robust and easy to handle • Usable as a measuring instrument • Automated mode for recording over several days LED status indicator. Sampling rate: 100 kHz Battery: lithium polymer. Composition Screen: Tactile colour Wireles communication: - Up to 16 Pods per interface - Up to 9 interfaces together Battery: lithium polymer Connection: USB without driver Software environment: - Mobile Science Studio software (mobile use) - Embedded Science Studio software (connected use) Delivered on its own without power supply (compatible with the AirNeXT® interface mains adapter). Ref. 486 001 ACCESSORIES Composition Delivered with USB cable and mains adapter (compatible with the Pods). Ref. 486 000 1 Pod mains adapter Ref. 281 213 5 Pods mains adapter Ref. 281 215 Ventral straps for Pod Ref. 486 004 The Tooxy® and Foxy® interfaces No driver nor software to install on your computer Software is embedded: you simply connect and experiment Display on sensors: you directly read measurements Foxy® interface • Very high sampling rate • Synchronized video 4 sensor inputs: - Analogue and / or digital processing for more accuracy - 15 MHz sampling rate per input Trigger mode - On external signal via the Synchro input - On measurement level via sensors or analogue inputs 4 analogue differential inputs: - 4 ranges each: ± 30 V, ± 15 V, ± 5 V, ± 0.25 V 2 analogue outputs: - Range: ± 10 V - Built-in function generator USB connection to the computer Ref. 485 000 Tooxy® interface • Get starting with data logging at affordable price • 2 versions available : mains or battery powered 2 sensor inputs: - Analogue and digital processing - 10 kHz sampling rate Trigger mode - On measurement level via sensors USB connection to the computer Designation Tooxy® interface Tooxy® interface - Battery powered Reference 480 000 480 003 | All our resources jeulin.com | Livre 402-421.indb 405 405 19/12/13 14:12 DATALOGGING SOFTWARE Science Studio software, the embedded software Plug & Measure system A unique software installed in all Jeulin interfaces & dataloggers No installation of drivers: concentrate on what is essential Immediate launch when connecting to a computer Free updates 406 Livre 402-421.indb 406 Online resources www.jeulin.com | Order by fax +33 2 32 29 43 24 | 19/12/13 14:12 ▲ Science Studio software Determination of equivalent volume using the tangents method. You entirely configure your acquisition: - choice of axis, - start on an event, - customisation of analogue imputs, - various trigger modes, - video. Perform all your experiments quicker and more accurately. For data processing, the software has an entire range of tools: - trend curve, - graphical and mathematical modelling, - parametric curves, - curve creation. Display of the speed and acceleration vectors when throwing a ball. ▲ An important factor is that a genuine scientific spreadsheet is included in the software for creating new magnitudes, performing calculations by cell or by column or exporting values. A dedicated set of applications Free fall Ultrasound scan ▲ Position of the ball vs time. ▲ Creation of a profile of the content of the model. Seismic profile Ohm's law ▲ Determination of u(i). ▲ Animation on the operating principle of seismic reflection. ▲ Science Studio's application launcher. 3-D ocean bed Respiration Blood pressure VO2 max Muscle nerve ▲ Determination of respiration rate. Enzymo | All our resources jeulin.com | Livre 402-421.indb 407 ▲ 3-D view of the inside of the bathymetry model obtained with the ultrasound sensor. 407 19/12/13 14:12 PadLab Application available for free from the Apple Store Wichever Jeulin interface you're using, all saved experiments are immediately displayable on an iPad. Your students can then see their results on their tablets whatever the location: in the classroom or at home. the datalogging application for iPad Using the PadLab application, you can see your students' results on your iPad, whether the data acquisition is finished or not. Firstly, you can ensure that the practical exercise is properly carried out, and secondly, you facilitate data sharing by making the results available to others. 408 Livre 402-421.indb 408 19/12/13 14:12 Sensors A sensor for every measurement 409 Livre 402-421.indb 409 19/12/13 14:12 DATALOGGING SENSORS Adapted to the study of electrical and electronic circuits in complete safety Current sensor 0.1A - 1A As well as conventional applications, the TRMS (True Root Mean Square) mode for: - performing experiments highlighting the energy properties of electrical current, - addressing the concepts of electrical power and work. Current sensor TRMS Differential inputs. Instantaneous current measurement. Ranges: ± 0.1 A and ± 1 A. Differential inputs. Measurement of the instantaneous and RMS current. Ranges: ± 0.05 A, ± 0.5 A, ± 2.5 A and ± 10 A. Ref. 482 202 Ref. 482 034 Voltage sensor ± 12 V - ± 24 V Voltage sensor TRMS Differential inputs. Instantaneous voltage measurement. Ranges: ± 12 V and ± 24 V. Differential inputs. Measurement of instantaneous and RMS voltage. Ranges: ± 0.1 V, ± 2.5 V, ± 15 V and ± 50 V. Ref. 482 201 Ref. 482 035 Magnetic field sensor Sound sensor • Ideal for measuring and mapping magnetic fields • Built-in microphone and amplifier Allows complete study of sound phenomena: wave shape, spectrum and sound level, as well as the speed of sound. Range: 30 to 120 dB. Probe included. Ref. 482 049 Charge sensor Includes a graduated probe equipped with 2 orthogonal sensors. Simultaneous measurement according to 2 perpendicular axes. Ranges: ± 10 mT and ± 100 mT. Ref. 482 045 410 Livre 402-421.indb 410 Developed for experiments in static electricity, it measures the electrical charge using the supplied shielded cable. Range: ± 100 nC. Ref. 482 067 | Order by phone +33 2 32 29 40 23 | 19/12/13 14:12 Temperature sensor -50/+150°C Fast response temperature sensor • Stainless-steel probe • Range of measurement adapted to almost all applications • Ideal with the mini-freezer Thermocouple sensor • No calibration necessary For thermal measurements that are quick, high or just multi-purpose. For K type thermocouple probe. Ranges: - 50 / + 150°C and 0 / + 1000°C. The outstandingly versatile thermometer thanks to its probe that is resistant to chemical products. Particularly adapted to the study of rapid thermal exchanges thanks to its probe with very low thermal inertia. Ideal for the study of phase change. Measurement range: -50 to +150°C. Probe included. Measurement range: -50 to +150°C. Probe included. Ref. 482 101 Ref. 482 204 Ref. 482 036 ACCESSORIES Flexible wire probe -40 / +300°C Ref. 253 003 Rigid probe with handle -50 / +900 °C Ref. 253 102 pH sensor pH and specific ions sensor • Diagnostic probe function • BNC connection This sensor can receive all combined electrodes fitted with a BNC: pH, oxidation-reduction and specific ions. It can receive a temperature probe for demanding measurements. Ranges: pH mode: 0 to 14 pH. Ions mode: ± 2000 mV. Temperature: -20 / +120 °C. Measurement range: 0 to 14 pH. Ref. 482 203 ACCESSORIES pH electrode Ref. 703 408 Ref. 482 070 Conductivity sensor Turbidity sensor • Automatic temperature compensation thanks to a sensor included in the probe Robust and simple to use, this sensor can measure the conductivity of a solution. Measures the turbidity of a liquid. Essential for studying the environment or chemistry. Ranges: 2 mS.cm-1 and 20 mS.cm-1. Probe: CTA included. Range: 0 to 100%. Probe included. Ref. 482 056 Ref. 482 050 | All our resources jeulin.com | Livre 402-421.indb 411 411 19/12/13 14:12 DATALOGGING SENSORS Light sensor - Standard Light sensor - Advanced • Adapted to the Bioreactor • Watertight Fitted with a probe with a spectral response similar to that of the human eye, it is suitable for measuring ambient light both indoors and outdoors. Measurement ranges: 0 to 2,000 Lux and 0 to 200,000 Lux. Probe included. Ref. 482 102 Fitted with a watertight probe with opening for lateral measurement, it is perfectly adapted for the study of photosynthesis in the air, in water and fermentation. Ranges: 50,000 Lux. Probe included. Ref. 482 037 Pressure sensor - Standard Pressure sensor - Advanced • Simple • Robust Versatile and cross-disciplinary, it allows the study of the laws of gases, of pressure in liquids, of atmospheric pressure,… Its measurement range covers a broad range of applications in physics / chemistry and biology. Measurement range: 0 to 2000 hPa. Measurement of absolute, relative and atmospheric pressure. 3 ranges: 7000 hPa, 800 to 1200 hPa and ± 200 hPa. Ref. 482 104 Ref. 482 038 Humidity sensor Weather sensor For environmental measurements and applications in biology (transpiration in plants) Measurement range: 0 to 100% HR. Probe included. Ref. 482 103 412 Livre 402-421.indb 412 For monitoring of the key meteorological measurements. Measurement ranges: Wind speed: 0.2 to 30 m.s-1. Temperature: -30 to +70 °C. Atmospheric pressure: 150 to 1150 hPa. Relative humidity: 0 to 100%. Probe included. Ref. 482 066 | Order by fax +33 2 32 29 43 24 | 19/12/13 14:12 Photogate sensor Free fall apparatus • Essential for mechanics • Ideal for studying free fall or the motion of bodies on benches More details on page 418. Ref. 453 035 Photogate Associated with the photogates, this sensor can count events, directly measure time and instantaneous velocity. Can accept one or two photogates. More details on page 418. Ref. 482 048 Ref. 453 026 Angle sensor Electronic stepped pulley • Friction almost nil • Ideal for studying pendular and circular movements 3 grooves available: diameters: 20 mm, 40 mm and 60 mm. Groove width: 1 mm. Ref. 453 109 Associated with the electronic stepped pulley, this sensor is dedicated to studying pendular and circular movements. Ranges: ± 45 and 180° Pendulum kit Ref. 482 052 ACCESSORY More details on page 85. Electronic stepped pulley Ref. 453 109 Ref. 222 008 Motion sensor Force sensor • Numerous experiments possible in dynamic mechanics • Measurement of forces in tension and compression Ideal for performing experiments on physical laws involving static and dynamic forces. Accessories (not supplied) allow it to be used for measuring weight and moment. Ranges: ± 5 N and ± 50 N. Function: tare. Mechanical protection against overloading. Ref. 482 047 This sensor can measure the position of objects moving in its detection field up to 10 m distant. Measurement rate: adjustable from 5 to 50 Hz. Ranges: 6 m and 10 m. Ref. 482 058 ACCESSORIES Moment accessory Ref. 222 056 Scale accessory Ref. 222 057 | All our resources jeulin.com | Livre 402-421.indb 413 413 19/12/13 14:12 DATALOGGING SENSORS O2 sensor - Standard • Simple measurement in air or in water • Calibration protocol incorporated and readable directly on the sensor O2 probes - Standard Temperature-compensated galvanic type. Probe: Ø 27 mm. Air O2 probe Immersion prohibited. Associated with one of the air or air / water probes, it can take precise measurements of oxygen in air or dissolved in water. Ref. 453 051 Air/water O2 probe In the air: measurement range: 0 to 25%. In water: measurement range: 0 to 20 mg/L. Watertight probe maybe immersed. Ref. 482 106 Ref. 453 052 O2 sensor - Advanced O2 probe - Advanced • Diagnostic probe function • Electronic calibration locking • Accurate and repeatable measurements • Watertight Polymer probe body Ø 12 mm, L = 12 cm. Includes - 1 spare head - 1 x 50 mL bottle of electrolyte - 1 ampoule of 25 mL of solution 0 Ref. 453 001 Associated with the O 2 probe Advanced, it is the ultimate versatile and accurate sensor. It can measure the oxygen in air or dissolved in water. In the air: measurement range: 0 to 25%. In water: measurement range: 0 to 20 mg/L. ACCESSORIES Anhydrous sodium sulphite (250 g) Ref. 105 154 Zero solution (pack of 2 ampoules) Ref. 107 265 Ref. 482 039 50 mL bottle electrolyte Ref. 106 084 O2 probe head - pack of 5 Ref. 453 130 Ethanol sensor Ethanol probe • Measurement in air and in water • Measures the concentration of ethanol in air and water. Measurement in liquid or gaseous mediums. Delivered with 3 probe heads. Associated with the ethanol probe, it is ideal, particularly for experiments in fermentation. Polymer probe body Ø 12 mm, L= 12 cm. Ranges in the air: 0 to 0.125% and 0 to 2.5%. Ranges in water: 0 to 1 g/L and 0 to 20 g/L. CONSUMABLE Ref. 482 053 414 Livre 402-421.indb 414 Ref. 453 084 Ethanol probe head (pack of 3) Ref. 453 085 | Technical assistance +33 2 32 29 40 50 | 19/12/13 14:12 Air CO2 sensor Water CO2 sensor Its two ranges make this sensor particularly appropriate to experiments involving measuring concentrations of CO 2 in the air whatever the discipline: human and animal metabolisms, environment, combustion, carbon cycle, etc. The CO2 in water sensor that is simplest to use and most economical. It functions with a pH-meter probe and can monitor changes of CO2 concentration and pH of aqueous solutions. Ref. 482 068 Ranges: 5% and 30%. Probe included. ACCESSORY PH electrode Ref. 703 408 Ref. 482 043 CO2 sensor - Advanced CO2 probe - Advanced • Diagnostic probe function • Electronic locking of the calibration • Accurate and repeatable measurements • Watertight Polymer probe body Ø 12 mm, L = 12 cm. 1 spare head. 1 bottle of electrolyte. 1 ampoule of base solution. 1 bottle of calibration solution. Ref. 453 076 ACCESSORIES Associated with its probe, this is the ultimate versatile and accurate probe. It can measure concentrations of CO2 in the air and in water. Ranges in water: 0 to 500 mg/L. Ranges in the air: 0 to 32%. Ref. 482 044 Electrolyte for CO2 probe, 50 mL bottle Ref. 105 175 Acid calibration solution for CO2 probe (50 mL bottle) Ref. 107 452 Base calibration solution for CO2 probe (pack of 6 ampoules) Ref. 107 453 Base calibration solution for CO2 probe (250 mL bottle) Ref. 107 454 CO2 probe head Ref. 453 077 One website multiple resources • Instruction manuals • Practicals • Demonstrations • Videos www.jeulin.com | All our resources jeulin.com | Livre 402-421.indb 415 415 19/12/13 14:13 DATALOGGING SENSORS Electrophysiology sensor DIN-2 bananas sockets cable Essential for using the nerve tank with Foxy® Ref. 283 389 Hand grips The most complete and high performing human and animal electrophysiology sensor. With its three functioning modes and its multitude of accessories, it can perform experiments on heart rate and its adaptation to effort, ECG, the myotatic reflex and nerve response. Supplied with the cable and 50 ECG electrodes. Ref. 482 046 ACCESSORIES Adhesive ECG-EMG electrodes (pack of 50) Ref. 453 029 Convenient for measuring heart rate and ECG. Works with the Electrophysiology sensor ref. 482 046 or the Heart Rate Sensor. Ref. 482 033 Spirometer sensor Blood pressure sensor • Very easy to use • Directly obtains systolic and diastolic pressure • Concept of adaptation to effort Measurement of arterial pressure: 0 - 200 mmHg. Ref. 482 051 ACCESSORIES Blood pressure cuff Ref. 554 049 Stethoscope Ref. 554 050 It is comprehensive in that it can perform all experiments relating to human respiration: rate, volume and flow. Ranges: Respiratory rate: 0 to 60 cycles / minute. Volume: ± 10 L. Flow: ± 10 L/s. Ref. 482 109 ACCESSORIES Mouthpieces (pack of 30) Ref. 453 009 Antibacterial filter Ref. 453 046 416 Livre 402-421.indb 416 Heart rate sensor • Directly measures heart rate • Manual electrodes included • Hand grips included Designed to simply measure the heart rate without any electrodes to be attached. Measurement range: 0 to 220 cpm. Ref. 482 105 | Order by phone +33 2 32 29 40 23 | 19/12/13 14:13 Ultrasound sensor ACCESSORIES 3-D ultrasound scan model Ref. 222 060 Hydrocarbon detection model Ref. 453 133 Functioning on the principle of wave reflection, this sensor can show the diverse applications of this principle in different fields such as medicine (ultrasound scan), seismic studies, bathymetry, etc. Models are provided for each type of experiment. Probe included. Ref. 482 054 Seismic sensor Bathymetry model Ref. 453 134 Seismic reflection model - passive margin Ref. 453 135 Mobile blocks model Ref. 453 136 Synchro sensor • For Tooxy® and AirNeXT® Ideal for learning the concept of wave propagation by performing various experiments simulating the propagation of seismic waves and their speed according to the characteristics of the medium: its composition and its temperature. Ref. 482 055 ACCESSORIES Rock bars Ref. 506 123 Can synchronise measurement with an external event. Essential for measuring the speed of sound, experiments in seismic studies and the myotatic reflex. Ref. 482 062 GPS sensor A one stop shop for all your support needs This sensor lets you geolocate your measurements. In addition to the GPS, it has an ambient temperature sensor. The data collected can be represented on a map using Google Earth, so that it can be analysed in its geographical context. Ref. 482 063 Before and after sales advice Advice on implementing experiments Specialists can answer all your technical questions +33 2 32 29 40 50 | All our resources jeulin.com | Livre 402-421.indb 417 417 19/12/13 14:13 DATALOGGING ACCESSORIES Essential accessories Ergolab® electronic burette with analogue output • Analogue output • For quick and accurate titration The Ergolab® electronic burette can digitise the volume poured when performing pH-metric or conductimetric titration. The student manually controls the progress of the piston and sees the titration curve constructed on the screen. Using the processing tools in the Science Studio software, the student precisely determines the equivalent volume using the tangents method or by calculating the derivative. Push-button for resetting the signal volume to zero, whatever the position of the piston. Connected using Ø 4 mm safety banana plugs. Free fall apparatus • Study of Newtonian dynamics Measurement range: 0 to 50 mL. Resolution: 0.025 mL. Accuracy (calibrated burette): ± 0.04%. Calibration: in one point at 25 mL. Analogue output: -5 V / +5 V compatible with all datalogging interfaces. Power supply: 12 V mains adaptor (to be ordered separately). Dimensions with syringe (w x h x d): 320 x 80 x 55 mm. Ref. 701 338 ACCESSORY 12 V mains adapter Ref. 281 243 Photogate Velocity sensor with two optical infrared beams. Allows transition time and speed measurements of objects. Connection: 2 m cable with 5-pin DIN plug. Ref. 453 026 Synchro clap ▲ Position of the ball as a function of time obtained with the free fall device. An integrated photo-electric sensor triggers measurement at the precise instant the ball starts falling. The repetitive character of measurements lets you perform experiments with only 2 Photogates. Composition - 1 graduated ruler, - 1 base with vertical adjustment and receiver tray, - 1 stabilisation weight, - 1 manual trigger with optical coupler, - 1 steel ball, - 1 plumb line for vertical adjustment. Ref. 453 035 418 Livre 402-421.indb 418 The synchro clap is fitted with 2 sockets for connecting it to the Synchro sensor or the synchro input of Foxy® interface. A small sleeve is used for insulation to avoid any short circuits, and allows the 2 sticks to be easily handled. Ref. 453 127 | Order by fax +33 2 32 29 43 24 | 19/12/13 14:13 Bioreactor 3 • Built-in stirrer • Captive plugs • 2 usable volumes of tanks Perform your photosynthesis and yeast metabolism experiments in the best conditions. 2 tank volumes (10 and 20 mL): the probe holder can be positioned in 2 different ways, and thus determine 2 different usable volumes: you can adjust your protocol to obtain the best results. Housing consists of a cover + movable metal shutters: assembly resistant to light,even intense conditions, without risk of damage. A new probe holder with elastic support: specially adapted to probes of 12 mm diameter, its design provides optimal support to the probe at the desired and 6 mm depth. No more risk of the probe descending, or of impact against the magnet bar. Ref. 453 064 CONSUMABLES Bioreactor 3 tank Ref. 453 072 Magnet bar for Bioreactor 3 (pack of 3) Ref. 703 450 1 mL syringe with catheter Ref. 723 088 ACCESSORY 12 V mains adapter Ref. 281 243 Animal respiration chambers Human respiration chamber This pack contains 2 small-volume chambers for your experiments with small animals (mealworms, crickets, stick insects,…), plants, fungi,… Ideal for the study of animal respiration, they can optimise the results by amplifying the display of the magnitude studied, such as the drop in O 2 concentration, for example. Delivered with: - adapters for using them with the various Jeulin probes. - plugs to block one of the holes in case of measuring a single magnitude. Composition - 1 x 250 mL chamber with 3 hole cover (2 for gaseous exchanges, 1 for temperature) - 1 x 40 mL chamber Cylindrical chamber for introducing 2 probes of diameters: 27, 12, 6 or 3 mm simultaneously. Supplied with connection pipes. Ref. 453 066 Ref. 453 081 | All our resources jeulin.com | Livre 402-421.indb 419 419 19/12/13 14:13 DATALOGGING ACCESSORIES Study photosynthesis in vivo Photosynthesis clamp Halogen lamp with adjustable height • Quick to set up • Easy-to-use With its height-adjustable base, it is perfectly adapted for functioning with the Bioreactor 3. 20 W / 12 V. Halogen bulb with GU4 socket, with radiation angle of 10°. Delivered with mains plug. Composition - 1 chamber in two detachable parts to enclose the leaf - 1 attachment rod - 1 cover for placing the measuring chamber in darkness Ref. 554 012 CONSUMABLE Spare bulb Ref. 554 064 Ref. 453 131 Fermentation chamber • Ideal for an experimental approach to alcoholic and lactic fermentation using datalogging • Possible to measure all parameters This chamber has been specially designed for datalogging. In particular it meets the servere conditions required to success fermentation experiments and other controlled parameters experiments. - 2 L cylindrical chamber, - 4 x 12 mm Ø holes for O2, CO2, pH, Ethanol or Turbidity probes, - 2 x 6 mm Ø holes for temperature or luxmeter probes, - 1 hole equipped with samples extraction and injection system, - 1 hole for an oxygenation system, - 1 hole for electric heater. Martoreflex Delivered with: - 1 electric heater for thermal regulation, - 1 oxygenation system, - 12 plugs (6 solid and 6 open) for use with or without probes, - 1 magnetic bar for stirring. This fermentation chamber can also be used to study cellular growth. Ref. 453 040 Nerve tank • 100% electronic Specially designed to meet the requirements of human electrophysiology, this new Martoreflex includes a specific electronic component that can, without any mechanical parts, very precisely trigger the measurement. Ref. 453 068 420 Livre 402-421.indb 420 The tank supports saline solutions and keeps the atmosphere saturated; composed of 12 silver chloride electrodes on Ø 4 mm sockets, a stainless-steel ballast for stability and a drain valve. Dim: 164 x 107 x 155 mm. Ref. 553 032 ACCESSORY DIN-2 bananas sockets cable Ref. 283 389 | Technical assistance +33 2 32 29 40 50 | 19/12/13 14:13
