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Posted (edited)

Hi scientists, I'm ametuer Space Physics researcher, and I have a problem about making an equation; 'Strong Electromagnetic Force Offsets Gravitational Force'

Is there someone can make this one? I will give you more information about this if you need.

Edited by JPL Space Engineer
Posted

The statement "the electromagnetic force is stronger than gravitation" is popular, but at least not necessarily correct. It is correct for atoms, but incorrect for the earth-moon system where electromagnetic force is so insignificantly small that it is completely neglected.

 

To answer your question: Consider two electrically charged masses at a distance d. Write down the expressions for the gravitational force |F|=G m1 m2 / d² (with m1 and m2 being the masses and G being the gravitational constant) and the force for the electrostatic force |F| = E q1 q2 / d² (with q1 and q2 being the charges and E being some constant that I currently don't know what it equates to - just look it up). You can then compare these values for different combinations of m1, m2. q1, q2 and d. A more detail analysis will also reveal that the distance d in this case is insignificant for the question which force is greater.

 

Hope that helps.

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