Dear all,
I posted a response to Katrina's summary last week that got lost in the system for some reason. Here it is again...
Dear Katrina/others interested,
I've made a quick spreadsheet to show how this works. By playing around with the parameters (body mass, initial velocity and position of the CoM)
you can get a apprecation of their importance to the final curve:
http://www.univie.ac.at/cga/tools/index.html#com
I've shown the CoM as measured by kinematics for comparison.
Chris
--
Dr. Chris Kirtley MD PhD
Associate Professor
Dept. of Biomedical Engineering
Catholic University of America
620 Michigan Ave NE, Washington, DC 20064
Tel. 202-319-6247, fax 202-319-4287
Email: kirtley@cua.edu
http://faculty.cua.edu/kirtley
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I posted a response to Katrina's summary last week that got lost in the system for some reason. Here it is again...
Dear Katrina/others interested,
I've made a quick spreadsheet to show how this works. By playing around with the parameters (body mass, initial velocity and position of the CoM)
you can get a apprecation of their importance to the final curve:
http://www.univie.ac.at/cga/tools/index.html#com
I've shown the CoM as measured by kinematics for comparison.
Chris
--
Dr. Chris Kirtley MD PhD
Associate Professor
Dept. of Biomedical Engineering
Catholic University of America
620 Michigan Ave NE, Washington, DC 20064
Tel. 202-319-6247, fax 202-319-4287
Email: kirtley@cua.edu
http://faculty.cua.edu/kirtley
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To unsubscribe send SIGNOFF BIOMCH-L to LISTSERV@nic.surfnet.nl
For information and archives: http://isb.ri.ccf.org/biomch-l
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