101012 Foothills Blvd., Roseville, CA 95747 USA  |  1-800-772-8700  |  1-916-786-3800  |   |  © Copyright 1996-2013. All rights reserved.

www.pasco.com/prodCatalog/SE/SE-7335_hover-puck/index.cfm

Hover Puck

SE-7335B

 

Overview

Hover Puck

The Hover Puck glides easily on a self-generated cushion of air until acted upon by an outside force.

  • Use one Hover Puck to demonstrate topics from Newton's First Law to Buoyancy to Reflection
  • Use two or more pucks to analyze the conservation laws in two dimensions
  • Set up a bowling alley using plastic drink bottles

Includes

  • Hover Puck
  • 4 "AA" batteries (LR6 alkaline cell)

Typical Appications

  • Inertia Activities -- The Hover Puck removes friction from its motion, which helps students better understand Newton's First Law
  • Newton's Second Law -- Students can apply various forces to the puck and record its acceleration with a Motion Sensor
  • 2D Collisions -- Use a video camera with video analysis software to record and analyze the motion of two pucks before and after a collision

Specifications

Diameter
  • 18.5 cm
Height
  • 6.0 cm

Order Guide

Selected Product:

Hover Puck (SE-7335B)

 Qty.

ADDITONAL INFO: Please review the information below for product requirements,
recommendations and options.

Recommended

Hover Puck Launcher (SE-7389)

 Qty.

Required for Use with PASPORT Interfaces

Want to quantitatively measure the motion of your Hover Puck?  Add a Motion Sensor and interface or datalogger and create graphs in real time. PASPORT Interfaces include SPARK, Xplorer GLX and USB Link.

PASPORT Motion Sensor (PS-2103A)

 Qty.

Required for Use with ScienceWorkshop Interfaces

There's also a motion sensor available from the classic Science Workshop line of probeware. ScienceWorkshop Interfaces include 750 and 500.

Motion Sensor II (CI-6742A)

 Qty.

10101 Foothills Blvd., Roseville, CA 95747 USA  |  1-800-772-8700  |  1-916-786-3800  |   |  © Copyright 1996-2013. All rights reserved.

www.pasco.com/prodCatalog/SE/SE-7335_hover-puck/index.cfm