Posts Tagged ‘magnet’

Slice of History: 100 Kilogauss Magnet

Wednesday, April 3rd, 2013

By Julie Cooper

Each month in “Slice of History” we feature a historical photo from the JPL Archives. See more historical photos and explore the JPL Archives at https://beacon.jpl.nasa.gov/.

100 kilogauss magnet
100 kilogauss magnet — Photograph Number 328-430Ac

An intense magnetic field facility was completed in 1964 by the Physics Section of the Space Sciences Division at NASA’s Jet Propulsion Laboratory. It was intended for use in studying superconductors, spectroscopy and new materials, and in other experiments where a wider range of measurements was possible because of the high magnetic field. This photo shows the magnet at center. The system also included a control room, cooling tower, pumps and a heat exchanger. The generator was located in a separate room because of the noise. Water was pumped through the magnet at about 440 gallons per minute, to regulate the temperature of the large copper coil in the center of the magnet. The closed loop system contained distilled water with sodium nitrite for corrosion control.

According to a technical report about the facility, the magnetic field of the magnet and bus bars penetrated nearby rooms to a depth of about 30 feet. Any iron that could be attracted to the magnet had to be removed from the area.

This post was written for “Historical Photo of the Month,” a blog by Julie Cooper of JPL’s Library and Archives Group.


Slice of History: Is It a JPL Magic Trick?

Tuesday, October 9th, 2012

By Julie Cooper

Each month in “Slice of History” we feature a historical photo from the JPL Archives. See more historical photos and explore the JPL Archives at https://beacon.jpl.nasa.gov/.

magnetic bearing
Is it a JPL magic trick? — Photograph 328-161Ac

In 1960 through 1961, several different experiments were conducted at NASA’s Jet Propulsion Laboratory in Pasadena, Calif., in search of a frictionless bearing for use in space applications, gyroscopes and other machinery. There were cryogenic, gas and electrostatic types of bearings, and the photo above shows a magnetic bearing. It was suspended by counterbalancing the force of gravity and an electromagnet. A servo feedback system continually corrected the current flow through the electromagnet to keep it stable.

This post was written for “Historical Photo of the Month,” a blog by Julie Cooper of JPL’s Library and Archives Group.