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K2004E01 SmartShaker
K2004E01 SmartShaker
 
Home > Excitation > Shaker Used in Biophysics Feather Vibration Studies

Shaker Used in Biophysics Feather Vibration Studies

Professor Uses SmartShakerâ„¢ to Simulate Peacock Mating Display

Artificial Peacock Train with SmartShaker

When Dr. Suzanne Amador Kane, Professor of Physics and Astronomy at Haverford College, was looking for a way to mimic the low-frequency vibration of peacock mating displays in her physics lab, she needed a mechanical shaker that could stand up to the job.

Kane studies mating displays and feather vibration of large birds such as the peacock, peacock pheasant, and great argus pheasant. Males of these species rattle a long train of tail feathers in an effort to attract a mate. Kane needed to shake large, unwieldy assemblies horizontally at relatively low frequencies and high amplitude to mimic the whole body motions of the natural shaking of the animal. She knew that the lightweight mechanical wave driver she had previously used to shake individual feathers couldn’t supply the energy needed for larger assemblies and a “beefier” shaker would be required. Thanks to the SmartShaker from The Modal Shop, beefier did not translate to large, unwieldy, and inconvenient.

A number of features made the K2007E01 SmartShaker the right tool for Dr. Kane’s lab:

  • Small, portable design
  • Frequency response down to low frequencies
  • Ability to shake large assemblies, even those with high damping
  • Flexible and easy coupling options
  • Convenient, integrated power amplifier
  • Ability to drive the shaker with a function generator or dynamic signal analyzer

According to Kane, the shaker is a “one step solution” and has been a great addition to her lab. Her research into feather vibration is ongoing, and as she studies more species of pheasants, the SmartShaker will play a central role in gathering data.

The SmartShaker is versatile for use in a wide variety of applications. In addition to biophysics and biomechanics applications and animal vibration studies, the team of physicists at Haverford College has plans to use the shaker to model geophysical processes and particle-scale interactions.

To learn more about Dr. Kane’s research, see this article from Discover Magazine or Dr. Kane’s Haverford College homepage.