Éolienne KidWind MINI avec conception de lames
Réf. produit :
KW-MWTBD
Informations sur le produit "Éolienne KidWind MINI avec conception de lames"
La mini éolienne KidWind avec conception de pales permet aux élèves d'explorer les concepts de base de production d'énergie éolienne et de conception de pales comme le pas, la surface, la masse, la quantité et le matériau sur un bureau à l'aide d'un petit ventilateur de maison. Cette trousse est la trousse recommandée pour Investigating Wind Energy.
La mini éolienne KidWind est une éolienne simple et facile à construire dotée d'un ensemble de pales efficace et de conception optimale qui permet d'allumer une ampoule LED à l'aide d'un petit ventilateur de maison.
| Bildungsstufe: | cycle 2, cycle 2 |
|---|---|
| Fach: | Wetter, géographie, sciences de la nature, énergie renouvelable |
| Fachbereich: | Bildung für nachhaltige Entwicklung - BNE, Natur, Mensch, Gesellschaft - NMG, fächerübergreifend |
| Hersteller: | Vernier |
Connexion
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Accessory Items
LabQuest Mini
405.70 CHF*
LabQuest Mini est une interface compacte et puissante, destinée aux utilisateurs qui n'ont pas besoin de l'autonomie d'enregistrement du LabQuest. Elle se branche au port USB d'un ordinateur et se pilote avec le logiciel Logger Pro Elle est directement alimentée par le port USB de l'ordinateur. On peut aussi l'alimenter avec un adaptateur secteur (en option) au cas où le port USB ne fournit pas assez de puissance pour les capteurs branchés.
3 voies analogiques
2 voies numériques
Peut faire jusqu'à 100 000 mesures par seconde
Convertisseur 12 bits
LabQuest Mini User Guide
Vernier Resistor Board
38.70 CHF*
The Vernier Resistor Board has seven 1 W 5% resistors mounted on a circuit board. Test clip holes on either side of the resistors allow for easy connections to clips on wire leads.The Vernier Resistor Board provides an ideal set of load resistors for KidWind wind turbines and solar panels.
Resistor values: 10 Ω, 15 Ω, 20 Ω, 30 Ω, 39 Ω, 51 Ω, and 100 Ω
Dimensions: 3.5 in long by 2 in wide
Four insulated jumper wires fitted with mini-alligator clips included
Investigating Wind Energy - Print and E-Book
85.60 CHF*
This book contains 10 hands-on, engaging wind energy experiments for elementary students and a culminating wind energy engineering project.
Students explore wind energy through the use of KidWind MINI Wind Turbines (KW-MWT) and the Vernier Energy Sensor (VES-BTA). Topics such as energy transfer, basic electric circuits, and blade variables, including pitch, shape, quantity, mass, and material, are covered.
Go Direct® Energy Sensor
222.20 CHF*
Description
Simpler to use than a multimeter, the Go Direct Energy Sensor measures the voltage and current oputput of a renewable energy system. Connect a source, such as a small wind turbine or solar panel, and our free Graphical Analysis 4 app displays voltage, current, power, and energy output. For simple energy measurements, Go Direct Energy includes a fixed load of 30 Ω. For more advanced experiments, electrical contacts are built into the sensor to connect to an external load, such as the Variable Load, a resistor on Vernier Resistor Board, a water pump, or lights.
The Go Direct Energy Sensor is ideal for a wide variety of renewable energy experiments:
Investigate the electrical energy generated by a wind turbine or solar panel.
Explore the effect of load on wind turbine or solar panel output.
Test blade design variables and evaluate data to determine optimal blade design.
Rechargeable Battery—Ready When You Are
The robust rechargeable battery offers long battery life and provides always-ready operation when using the sensor wirelessly. Monitor battery life directly from our free Graphical Analysis™ 4 app or LabQuest 2 App. Should the battery run low, simply connect the sensor to the charging cable and keep on collecting—no interruptions or inconvenience to you or your students.
Wired or Wireless—The Flexibility to Choose
Our Go Direct sensors connect directly to your mobile device, Chromebook™, or computer using our free Graphical Analysis™ 4 app—no additional equipment or software purchases are necessary. Go Direct sensors can be used wired via USB or wirelessly via Bluetooth® wireless technology, allowing you to choose the solution best for your classroom or laboratory.
Vernier Energy Sensor
234.40 CHF*
The Vernier Energy Sensor offers an easy way to quantify voltage, current, power, and energy output of small wind turbines and solar panels such as those used in our KidWind Experiment Kits.
Setting up a circuit to study renewable energy systems such as wind turbines or solar panels is easy with the Vernier Energy Sensor. Simply connect a source such as a small wind turbine or solar panel to one side and a load such as the Variable Load (VES-VL) or a resistor on Vernier Resistor Board (VES-RB) to the other side.
The Energy Sensor measures the current and voltage of the system. Data-collection and analysis software, such as Logger Pro or LabQuest App can then calculate the power and energy output.
Source Input Potential Range:± 30 V
Source Input Current Range:± 1000 mA
User manual
Vernier Variable Load
181.40 CHF*
The Vernier Variable Load is used in conjunction with the Vernier Energy Sensor to provide a range of resistive loads for projects such as wind turbines or solar panels.
Students can adjust the potentiometer to provide resistances between 6 and 255 Ω, allowing them to determine the optimal load on a system.
Maximum Input:0.22 A
Resistance:6 – 255 Ω
Included:Vernier Variable LoadTwo insulated jumper wires fitted with mini-alligator clipsUser manual
Renewable Energy with Vernier - Print and E-Book
120.20 CHF*
The Renewable Energy with Vernier lab book features 26 experiments in wind and solar energy. The lab book contains a combination of explorations, traditional experiments, inquiry investigations, engineering projects, and more.
In this book, students learn about renewable energy, experiment with variables affecting power output from model wind turbines and solar panels, and participate in engineering projects such as building a wind farm or a solar charger to meet certain design criteria.
Aligned with the Next Generation Science Standards, NGSS, all of the experiments are designed to support students in three-dimensional learning with Disciplinary Core Ideas, Science and Engineering Practices, and Crosscutting Concepts identified for each experiment within the Instructor pages.
Many of the experiments use the Vernier Energy Sensor and the Vernier Variable Load, two products that were designed to measure the power and energy output of renewable energy sources. The experiments also use the KidWind Advanced Wind Experiment Kits (KW-AWX) and Solar Thermal Exploration Kit (KW-STXK) .
Enquête sur l'énergie éolienne Paquet Go Direct®
413.80 CHF*
Lorsque les étudiants étudient l'énergie éolienne, ils apprennent des notions importantes sur le transfert d'énergie, les circuits électroniques de base et la conception des pales. Cette trousse fournit la technologie et le matériel dont un groupe d'étudiants a besoin pour utiliser notre manuel de laboratoire Enquête sur l'énergie éolienne.
Ce qui est inclus
Capteur d'énergie Go Direct®
Conseil de résistance Vernier
Éolienne KidWind MINI avec conception de lames
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Similar Items
KidWind MINI Wind Turbine with Blade Design - Wind Turbine Only
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Il s'agit d'une turbine facile à construire qui allume une ampoule à DEL et joue un air. Les pales très efficaces produisent beaucoup de puissance dans un léger vent.
leXsolar-Wind Large 2.0
830.00 CHF*
Mit diesem System bleiben keine Fragen zu den physikalischen Grundlagen der Windenergienutzung offen. leXsolar-Wind Large vermittelt durch lehrplanbezogene Experimente ein Verständnis für die Funktionsweise von Windkraftanlagen. So kann beispielsweise der Einfluss von Windstärke und Windrichtung oder der Rotorart untersucht werden. Für die Klassenstufe 5 - 7 können die Versuche phänomenologisch anhand einfacher Verbraucher wie Glühlampe oder Hupe durchgeführt werden, für den Physikunterricht bis Klasse 13 auch vollständig quantitativ. Für die phänomenologischen Versuche ist die Erweiterung "Messen ohne Messgeräte" erforderlich.
Stückliste:
1 x 1100-19 leXsolar-Grundeinheit groß
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1 x 1400-01 Savoniusrotormodul
1 x 1400-07 Kondensatormodul 220 mF, 2.5 V
1 x 1400-08 LED-Modul 2mA, rot
1 x 1400-12 leXsolar-Windrotoren
1 x 1400-19 leXsolar-Winderzeuger
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1 x 1404-02 Box 1404
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1 x L3-01-023 Einlage Wind Large 1404
1 x L3-03-016 leXsolar-CD
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Experimente
Einfluss der Windgeschwindigkeit auf eine Windturbine (qualitativ und quantitativ)
Ermittlung und Vergleich der Anlaufgeschwindigkeit von Windkraftanlagen und Savoniusrotor
Veränderung der Generatorspannung durch Zuschalten von Verbrauchern
Untersuchung der Windgeschwindigkeit hinter dem Rotor
Energiebilanz einer Windkraftanlage
Experimentelle Berechnung des Wirkungsgrades einer Windkraftanlage
Speicherung elektrischer Energie
Energieumwandlung an einer Windkraftanlage
Untersuchung von Farbscheiben mit Hilfe einer Windkraftanlage
Vergleich zwischen Savonius- und Dreiblattrotor (qualitativ und quantitativ)
Vergleich von Zwei-, Drei- und Vierblattrotoren (qualitativ und quantitativ)
Kennlinie einer Windkraftanlage
Einfluss der Windrichtung (qualitativ und quantitativ)
Einfluss des Anstellwinkels der Rotorblätter (qualitativ und quantitativ)
Die Abhängigkeit der Anlaufgeschwindigkeit vom Anstellwinkel
Einfluss der Flügelform (qualitativ und quantitativ)
Go Direct® Energy Sensor
222.20 CHF*
Description
Simpler to use than a multimeter, the Go Direct Energy Sensor measures the voltage and current oputput of a renewable energy system. Connect a source, such as a small wind turbine or solar panel, and our free Graphical Analysis 4 app displays voltage, current, power, and energy output. For simple energy measurements, Go Direct Energy includes a fixed load of 30 Ω. For more advanced experiments, electrical contacts are built into the sensor to connect to an external load, such as the Variable Load, a resistor on Vernier Resistor Board, a water pump, or lights.
The Go Direct Energy Sensor is ideal for a wide variety of renewable energy experiments:
Investigate the electrical energy generated by a wind turbine or solar panel.
Explore the effect of load on wind turbine or solar panel output.
Test blade design variables and evaluate data to determine optimal blade design.
Rechargeable Battery—Ready When You Are
The robust rechargeable battery offers long battery life and provides always-ready operation when using the sensor wirelessly. Monitor battery life directly from our free Graphical Analysis™ 4 app or LabQuest 2 App. Should the battery run low, simply connect the sensor to the charging cable and keep on collecting—no interruptions or inconvenience to you or your students.
Wired or Wireless—The Flexibility to Choose
Our Go Direct sensors connect directly to your mobile device, Chromebook™, or computer using our free Graphical Analysis™ 4 app—no additional equipment or software purchases are necessary. Go Direct sensors can be used wired via USB or wirelessly via Bluetooth® wireless technology, allowing you to choose the solution best for your classroom or laboratory.