How Do Skin Electrodes Detect Heart Depolarization?

AI Thread Summary
Skin electrodes detect heart depolarization by measuring the small voltage changes that occur as depolarization waves travel through the heart muscle. When positively charged sodium ions enter heart muscle cells, they create a wave of depolarization that causes contraction, which is registered as an upward deflection on an ECG. This deflection is not due to a net movement of charges but rather the relative changes in electrical potential between the electrode and the heart. The electrodes work by detecting these voltage changes, allowing for the recording of the heart's electrical activity. Understanding the physics behind this process is crucial for interpreting ECG readings effectively.
Master Wayne
Messages
26
Reaction score
3
I'm reading a book about electrocardiograms. In one page, the author says that when a wave of depolarization (positively charged sodium ions enter the muscle cells of the heart, causing contraction) moves through the heart toward an electrode placed on the skin, an upward deflection is registered on the ECG record.

That got me wondering about the physics of it. A wave of depolarization is not exactly an electric current, since there's no net movement of charges, right? What exactly does this wave of depolarization do to the electrode? And what would a possible mechanism be by which that is recorded as an upward deflection?
 
Physics news on Phys.org

Thread 'How to picture the vector potential?'

Susskind (in The Theoretical Minimum, volume 1, pages 203-205) writes the Lagrangian for the magnetic field as ##L=\frac m 2(\dot x^2+\dot y^2 + \dot z^2)+ \frac e c (\dot x A_x +\dot y A_y +\dot z A_z)## and then calculates ##\dot p_x =ma_x + \frac e c \frac d {dt} A_x=ma_x + \frac e c(\frac {\partial A_x} {\partial x}\dot x + \frac {\partial A_x} {\partial y}\dot y + \frac {\partial A_x} {\partial z}\dot z)##. I have problems with the last step. I might have written ##\frac {dA_x} {dt}...
View full post »
Thread 'Griffith, Electrodynamics, 4th Edition, Example 4.8. (Second part)'

Thread 'Griffith, Electrodynamics, 4th Edition, Example 4.8. (Second part)'

I am reading the Griffith, Electrodynamics book, 4th edition, Example 4.8. I want to understand some issues more correctly. It's a little bit difficult to understand now. > Example 4.8. Suppose the entire region below the plane ##z=0## in Fig. 4.28 is filled with uniform linear dielectric material of susceptibility ##\chi_e##. Calculate the force on a point charge ##q## situated a distance ##d## above the origin. In the page 196, in the first paragraph, the author argues as follows ...
View full post »

Similar threads

Medical Can action potential propagation be modeled by joining several RC circuits?
Replies
7
Views
9K
Exokat [catsuit exoskeleton] and Simbot 8.4 invention idea?
Replies
16
Views
5K
Do Movies Teach Us Realistic Life Skills?
Replies
1
Views
10K
Starring Gravity, Co-Starring Magnetism
Replies
7
Views
4K

Hot Threads

Recent Insights

Back
Top