Coulomb's Law: Is It Correct to Use r12 Instead of r21 for Attractive Force?

logearav · Jan 4, 2012

Homework Statement

Revered members,
Please see my both attachments.

Homework Equations

F₂₁ = (q₁q₂/4∏ε₀r₁₂²)*r₁₂cap(unit vector)
Is it wrong to use r₁₂ instead of r₂₁ for F₂₁. Because my second attachment uses r₂₁for F₂₁ and r₁₂ or F₁₂. I am confused. Please help which is correct.

The Attempt at a Solution

cupid.callin · Jan 4, 2012

logearav said:

Homework Statement

Revered members,
Please see my both attachments.

no attachment

logearav · Jan 4, 2012

Sorry cupid.callin. Now i have incorporated the attachments.

ehild · Jan 5, 2012

It depends how the forces and the unit vectors r₁₂ and r₂₁ were named. The left poster calls the unit vector pointing from 1 to 2 by [itex]\hat{r}_{12}[/itex], in the right one it is denoted by [itex]\hat{r}_{21}[/itex].

One is sure: the Coulomb force a charge exerts on an other charge acts in the line that connects them and repulsive when the charges are of the same sign.

If the position of two point charges are given with the vectors r₁ and r₂ then the force [itex]\vec{F_{21}}[/itex] exerted on charge 2 by charge 1 is

[tex]\vec F_{21}=k\frac{Q_1 Q_2}{(\vec {r_2}-\vec {r_1})^3}(\vec {r_2}-\vec {r_1})[/tex].

You can call the vector pointing from 1 to 2 by [itex]\vec r_{12}[/itex]. The unit vector pointing from1 to 2 is

[tex]\hat r_{12}=\frac{\vec {r_2}-\vec {r_1}}{|\vec {r_2}-\vec {r_1}|}=\frac{\vec r_{12}}{r_{12}}[/tex]

With this notation, the Coulomb force on charge 2 exerted by charge 1 is

[tex]\vec F_{21}=k\frac{Q_1 Q_2}{r_{12}^2}\hat r_{12}[/tex].

ehild · Jan 6, 2012

Correction:
Instead of

ehild said:

[tex]\vec F_{21}=k\frac{Q_1 Q_2}{(\vec {r_2}-\vec {r_1})^3}(\vec {r_2}-\vec {r_1})[/tex].

[tex]\vec F_{21}=k\frac{Q_1 Q_2}{|\vec {r_2}-\vec {r_1}|^3}(\vec {r_2}-\vec {r_1})[/tex]

ehild

logearav · Jan 7, 2012

Thanks for the help ehild.
Btw, Both your quoted equation and the reply equation in your last reply was same.

ehild · Jan 7, 2012

I mistakenly used parentheses () in the quoted equation: It has to be magnitude instead ||.

ehild

logearav · Jan 10, 2012

Thanks again. If charges are opposite, then attractive force exists. Will the coulomb law take a negative sign? That is F = -KQ1Q2/r^2 ?

ehild · Jan 10, 2012

logearav said:

Thanks again. If charges are opposite, then attractive force exists. Will the coulomb law take a negative sign? That is F = -KQ1Q2/r^2 ?

NO. One of the Q-s is negative, the other one is positive. Their product is negative so the force is negative. The law is the same for any Q1, Q2.

[tex]\vec F_{21}=k\frac{Q_1 Q_2}{r_{12}^2}\hat r_{12}[/tex]

ehild

Coulomb's Law: Is It Correct to Use r12 Instead of r21 for Attractive Force?

Homework Statement

Homework Equations

The Attempt at a Solution

Attachments

Homework Statement

1. What is Coulomb's law in vector form?

2. How is Coulomb's law in vector form different from the scalar form?

3. What are the units of measurement for the variables in Coulomb's law in vector form?

4. How does Coulomb's law in vector form relate to the principle of superposition?

5. Can Coulomb's law in vector form be applied to non-point charges?

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