Why is the force of repulsion responsible for the formation of a solid and not the forces of attraction
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As the hydrogen nuclei come nearer, an expanding bit of the likelihood dispersion of the electrons comes to lie outside the district between the cores. Subsequently, the normal separation amongst electrons and protons winds up plainly more prominent. This could likewise be pictured as charge appropriations instead of as discrete particles.
Be that as it may, in any case, since there is more prominent separation amongst positive and negative charge, the attractive force ends up noticeably weaker. In the meantime, since the protons are nearer together, the repulsive force ends up plainly more prominent. Thus the repulsive force prevails over the alluring force thus there is a net repulsion.
Be that as it may, in any case, since there is more prominent separation amongst positive and negative charge, the attractive force ends up noticeably weaker. In the meantime, since the protons are nearer together, the repulsive force ends up plainly more prominent. Thus the repulsive force prevails over the alluring force thus there is a net repulsion.
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