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Human Body Nerve Impulses. Lecture Notes. Physics and Astronomy Outreach Program at the University of British Columbia. Goals. Nerve Impulses. Biology : To learn about nerve impulses propagating along motor nerves and understand why eye-foot and eye-hand
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Human Body Nerve Impulses Lecture Notes Physics and Astronomy Outreach Program at the University of British Columbia
Goals Nerve Impulses • Biology: To learn about nerve impulses • propagating along motor nerves and • understand why eye-foot and eye-hand • reaction times are different. • Physics: To calculate the average propagation • speed of the nerve signals along motor nerves. Physics and Astronomy Outreach Program at the University of British Columbia
Big Ideas Nerve Impulses • Biology: Upon being subjected to stimuli the • brain sends electro/chemical signals along • motor nerves to the part of the body where a • response is desired. • Physics: The difference in eye-foot and • eye-hand reaction times can be attributed • to the finite propagation speed of the • nerve impulse along the nerve. Physics and Astronomy Outreach Program at the University of British Columbia
Reaction Times Nerve Impulses • On line reaction time tests at • http://getyourwebsitehere.com/jswb/rttest01.html • Typical eye-hand reaction time is 0.28 s.[1] • Eye-foot time is more important for emergency • braking: typically 0.45 s. [1] Physics and Astronomy Outreach Program at the University of British Columbia
Reaction Times Nerve Impulses • A small portion of the reaction time is due to the time it takes the brain to process the visual signal and to send out the signal to move. • The remainder of the time is taken for the signal to travel down the nerves to the hands/feet. Physics and Astronomy Outreach Program at the University of British Columbia
Reaction Times Nerve Impulses • The difference between eye-hand (0.28 s) and eye-foot (0.45 s) reaction times is due to the difference in distance that the signal has to travel. • The distance from your brain to your hands is approximately 1 meter, and from your brain to your feet is approximately 1.6 meters. • What are the average signal speeds? Physics and Astronomy Outreach Program at the University of British Columbia
Calculation Nerve Impulses • The extra distance the nerve impulse has • to go from your brain to your feet is • approximately 0.6 m longer than the • distance to your hands. • It takes (0.45 s - 0.28 s) = 0.17s longer for • the signal to reach your feet so the speed of • the signal propagating along the nerves • is (0.6 m/0.17 s) = 3.5 m/s. Physics and Astronomy Outreach Program at the University of British Columbia
Signal Propagation • Note that this is an average speed of a signal traveling along one neuron. • The actual time it takes for the signal to travel along the axon of one neuron can be greater than 25 m/s but to relay the signal to the next neuron across the synapse is about 1000 times slower. • Here the signal must also cross the synapses by chemical diffusion.
Bibliography Nerve Impulses [1] Journal of the American Optometric Association, 2000, vol. 71, no12, pp. 775-780 (32 ref.) [2] Image from http://upload.wikimedia.org/wikipedia/en/a/a6/Chemical_synapse_schema.jpg Physics and Astronomy Outreach Program at the University of British Columbia