Ranking forces between charged particles

AI Thread Summary
The discussion focuses on ranking the forces between charged particles based on their magnitudes and distances apart. Participants emphasize using Coulomb's law rather than the electric field formula for accurate calculations. The initial attempt to rank the forces using the wrong formula led to confusion, prompting clarification on the correct approach. The importance of correctly applying Coulomb's attraction formula is highlighted to achieve the desired ranking. Ultimately, the conversation underscores the necessity of using appropriate equations in physics problems involving charged particles.
awilliam_3
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Homework Statement



Two charges with magnitude (Q) experience a force (F) when held a distance apart. Rank from smallest to largest the forces between charges of the following magnitudes (q), held the following respective distances (r) apart. (There may be ties.)

A) q= Q/3 r= R/3
B) q= 2Q r= R/2
C) q= 2Q r= R
D) q= 3Q r= 3R
E) q= Q/2 r= 2R


Homework Equations



E = K [q1 / d^2]


The Attempt at a Solution



I attempted to use E = q1 / d^2 ; inputted values ; for example, for (A): [(Q/3)/(r/3)^2] = 3Q/r^2

I did not get the sequence correct.
 
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Don't compute the E field. Use the Coulomb attraction formula instead.
 
rude man said:
Don't compute the E field. Use the Coulomb attraction formula instead.

Oh good grief of course. Thank you.
 

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