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If the charge that enters each meter of the axon gets distributed uniformly along it, how many coulombs of charge enter a 0.100 mm length of the axon?
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If the charge that enters each meter of the axon gets distributed uniformly along it, how many coulombs of charge enter a 0.100 mm length of the axon?

User Saravankg
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1 Answer

2 votes

Answer:

Charge enter a 0.100 mm length of the axon is
8.98* 10^(-12) C

Step-by-step explanation:

Electric field E at a point due to a point charge is given by


E=k (q)/(r^2)

where
k is the constant =
9.0 * 10^9 Nm^2 / C^2


q is the magnitude of point charge and
r is the distance from the point charge

Charges entering one meter of axon is
5.* 10^(11) * (+e)

Charges entering 0.100 mm of axon is
5.* 10^(11) * (+e) * (0.1 * 10^(-3)

substituting the value of
+e=1.6* 10^(-19) C in above equation, we get charge enter a 0.100 mm length of the axon is


q=5.* 10^(11) *1.6* 10^(-19) * (0.1 * 10^(-3)\\q=8.98* 10^(-12) C

User Dimitar K
by
4.8k points
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