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               LabQuest 2 App Version 2.9 Update released - supports GoDirect wireless sensors                                Check out our new WiFi Weather Station                               
        
               LabQuest 2 App Version 2.9 Update released - supports GoDirect wireless sensors                                Check out our new WiFi Weather Station                               
        
               LabQuest 2 App Version 2.9 Update released - supports GoDirect wireless sensors                                Check out our new WiFi Weather Station                               
        
               LabQuest 2 App Version 2.9 Update released - supports GoDirect wireless sensors
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Vernier Microstirrer

Order code: MSTIR
Purchase QTY: (Each) 1+
Scientrific's price   $22.00
Note: Prices do NOT include GST or freight

VERNIER MICROSTIRRER
Vernier's Microstirrer takes the place of the stirring bar that is typically used with a laboratory magnetic stirrer. It easily attaches to the end of a pH sensor, conductivity probe, dissolved oxygen probe or ion-selective electrodes.

When the magnetic stirrer plate (required, but not included) is turned on, its magnetic field turns the paddle wheel of the Microstirrer resulting in enhanced stirring near the electrode tip.

The Vernier Microstirrer works with any magnetic stirrer.

VDC-BTD Vernier Drop Counter and STIR Vernier Stir Station both have a microstirrer included.

Educational use only:
Vernier and Kidwind products are designed for educational use. They are not appropriate for industrial, medical or commercial applications. Details


Warranty
  • Warranty: 5 year limited warranty
    Dimensions
    • Package size (HxWxD): 6x51x76mm

      Last edited 23rd Jan 2024

      This product is used in teaching these Australian Curriculum codes:
      ACSCH063 - Molecular interactions and reactions - Aqueous solutions and acidity - The concentration of a solution is defined as the amount of solute divided by the amount of solution; this can be represented in a variety of ways including by the number of moles of the solute per litre of solution (mol L­1) and the mass of the solute pe
      ACSCH066 - Molecular interactions and reactions - Aqueous solutions and acidity - The pH scale is used to compare the levels of acidity or alkalinity of aqueous solutions; the pH is dependent on the concentration of hydrogen ions in the solution
      ACSCH064 - Molecular interactions and reactions - Aqueous solutions and acidity - The presence of specific ions in solutions can be identified using analytical techniques based on chemical reactions, including precipitation and acid­base reactions
      ACSCH097 - Equilibrium acids and redox reactions - Chemical equilibrium systems - Acids are substances that can act as proton (hydrogen ion) donors and can be classified as monoprotic or polyprotic depending on the number of protons donated by each molecule of the acid
      ACSCH101 - Equilibrium acids and redox reactions - Chemical equilibrium systems - Acid­base indicators are weak acids or bases where the acidic form is of a different colour to the basic form
      ACSCH091 - Equilibrium acids and redox reactions - Chemical equilibrium systems - Over time, physical changes and reversible chemical reactions reach a state of dynamic equilibrium in a closed system, with the relative concentrations of products and reactants defining the position of equilibrium
      ACSCH100 - Equilibrium acids and redox reactions - Chemical equilibrium systems - The pH scale is a logarithmic scale and the pH of a solution can be calculated from the concentration of hydrogen ions; Kw can be used to calculate the concentration of hydrogen ions from the concentration of hydroxide ions in a solution
      ACSCH099 - Equilibrium acids and redox reactions - Chemical equilibrium systems - The relationship between acids and bases in equilibrium systems can be explained using the Brønsted­ Lowry model and represented using chemical equations that illustrate the transfer of hydrogen ions
      ACSCH098 - Equilibrium acids and redox reactions - Chemical equilibrium systems - The strength of acids is explained by the degree of ionisation at equilibrium in aqueous solution, which can be represented with chemical equations and equilibrium constants (Ka)
      ACSCH102 - Equilibrium acids and redox reactions - Chemical equilibrium systems - Volumetric analysis methods involving acid­base reactions rely on the identification of an equivalence point by measuring the associated change in pH, using chemical indicators or pH meters, to reveal an observable end point

      Click a curriculum code to see other products that relate.

       
      Works with:From
      STIR - Vernier Stir Station$370.00
      PH-BTA - Vernier pH Sensor$238.00
      FPH-BTA - Vernier Tris Compatible Flat pH Sensor$298.00
      GDX-DC - Vernier Go Direct Drop Counter$262.00
      CON-BTA - Vernier Conductivity Probe$301.00
      VDC-BTD - Vernier Drop Counter$262.00

      Documents:
      CatalogueVernier Catalogue K-12
      CatalogueVernier Catalogue Uni
      CatalogueMay 2024 Web Catalogue
      Compatibility GuideSensor-Interface-Software Requirements (external link)
      ExperimentAcid Base Titration
      ExperimentMC32 Acid Base Titration

      Note: Prices do NOT include GST or freight