How should I approach this question?

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To determine the electric force on a K+ ion due to a Cl- ion across a 7.9 nm membrane, Coulomb's law is applied, where the force F is calculated using the equation F = qE. The charge q for the ions is derived from their respective charges, with K+ having a charge of +e and Cl- having a charge of -e. The distance r is given as 7.9 nm, which is crucial for calculating the force. The discussion emphasizes understanding the significance of the charges represented by the "+" and "-" symbols in the ion notation. This approach leads to a clearer calculation of the electric force between the ions.
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A K+ ion and a Cl- ion are directly across from each other on opposite sides of a membrane 7.9 nm thick. What is the electric force on the K+ ion due to the Cl- ion? Ignore the presence of other charges.

_____N

Thanks,
Matt
 
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hmmm... do you know coulomb law? E=\frac{q}{|r_1-r_2|^2}
and F=qE
 
Yes, but all that is given in the problem is "r". How do I find "q"?
 
The q is just the value of -e i think.
 
HINT: What do the "+" and "-" mean in K+ and Cl-?
 
Ohhh, ok. Thanks a bunch guys.
 

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