The magnitude of <em>electrical</em> force on charge due to the others is 0.102 newtons.
<h3>
How to calculate the electrical force experimented on a particle</h3>
The vector <em>position</em> of each particle respect to origin are described below:
Then, distances of the former two particles particles respect to the latter one are found now:
The resultant force is found by Coulomb's law and principle of superposition:
(1)
Please notice that particles with charges of <em>same</em> sign attract each other and particles with charges of <em>opposite</em> sign repeal each other.
(2)
Where:
- - Electrostatic constant, in newton-square meters per square Coulomb.
- , , - Electric charges, in Coulombs.
- , - Distances between particles, in meters.
- , - Unit vectors, no unit.
If we know that , , , , , , and , then the vector force on charge is:
And the magnitude of the <em>electrical</em> force on charge (), in newtons, due to the others is found by Pythagorean theorem:
The magnitude of <em>electrical</em> force on charge due to the others is 0.102 newtons.
To learn more on Coulomb's law, we kindly invite to check this verified question: brainly.com/question/506926
I believe it is the mass of an object. The question is oddly asked
Answer:
resultant vector
the answer is the resultant vector
3rd number line -5- -4 is -9
also it’s math not physics or science
We don't have much to go on.
The dimensions of D depend on the dimensions of N, n, and x, and we don't know what any of those stand for.
It might help if we had ever heard of 'diffastion', but we're striking out there too.