Recreate Cavendish’s historical experiment and measure the Universal Gravitational Constant in under three hours with this complete solution designed for use with PASCO Capstone Software.
See the Product Description for this item's included accessories.
See the Buying Guide for this item's required, recommended, and additional accessories.
Product Summary
The attraction between a pair of small tungsten spheres and a pair of larger tungsten spheres is measured by the torsion of a beryllium ribbon. The large spheres are placed close to the small spheres and allowed to equilibrate. A laser is reflected from a mirror on the beryllium ribbon and shown on a screen or wall. The large spheres are then rotated through an angle to produce torque on the ribbon. The mirror rotates with the ribbon, so the laser reflection on the screen or wall is displaced. The displacement of the laser reflection is measured to find “G”.
PASCO Advantage: For the first time, the measurement of G using the Cavendish Balance can actually be performed in a three-hour lower division physics laboratory! Data collection is done using a webcam to video two periods of the oscillation for both ball positions in less than 45 minutes. The video data may then be transferred to the lab groups for analysis using the video analysis capability of PASCO Capstone. Fitting a damped sine curve to the video data allows an extremely precise determination of period of oscillation and where the final equilibrium positions would be. When analysis of small effects inherent in the method is included, an accuracy of better than 2% is possible.
NOTE: No interface is required.
Concepts
- Measure the Universal Gravitational Constant in less than three hours!
- Recreate Cavendish’s historical experiment
- Uses PASCO Capstone Video Analysis
How It Works
For the first time, the measurement of G using the Cavendish Balance can actually be performed in a 3-hour lower division physics laboratory! Data collection is done using a webcam to video two periods of the oscillation for both ball positions in less than 45 minutes. The video data may then be transferred to the lab groups for analysis using the video analysis capabilities of PASCO Capstone. Fitting a damped sine curve tot he video data allows an extremely precise determination of period of oscillation and where the final equilibrium positions would be. When analysis of small effects inherent in the method is included, an accuracy of better than 2% is possible.
- Additional items needed, but not included: Transparent ruler and Meter Stick, PASCO Capstone software
What's Included
Data Collection Software
This product requires PASCO software for data collection and analysis. We recommend the following option(s). For more information on which is right for your classroom, see our Software Comparison: SPARKvue vs. Capstone »
Buying Guide
Required Accessories | P/N | Price |
---|---|---|
1x Transparent Ruler and Meter Stick | -- | -- |
Replacement Parts | P/N | Price |
---|---|---|
Torsion Bands (2 Pack) - Gravitational Torsion Balance | AP-8218 | -- |
Experiments
Universal Gravitational Constant Experiment | English | 276.69 MB |
Support Documents
Manuals | ||
---|---|---|
Flex Rod Manual | English - 319.01 KB | |
Gravitation Torsion Balance Manual | English - 968.52 KB | |
Large Rod Stand Manual | English - 160.42 KB | |
Polarizer Set Manual | English - 56.75 KB | |
USB Camera Manual | English - 101.66 KB | |
X-Y Adjustable Diode Laser Manual | English - 114.80 KB |