...force of repulsion ; why, then, do not the mutually repellent members of this group part company ? The molecules do separate from each other when the external...the position of every atom — its distance from its fellows — is determined by the equilibration of these two forces. If the atoms come too near, repulsion...

...repulsion ; why, then, do not the mutually repellant members of this group part company ? The molecules separate from each other when the external pressure...the position of every atom — its distance from its fellows — is determined by the equilibration of these two forces. If the atoms come too near, repulsion...

...repulsion; why, then, do not the mutually repellant members of this group part company ? The molecules separate from each other when the external pressure...between every two atoms; and the position of every atom—its distance from its fellows—is determined by the equilibration of these two forces. If the...

...are kept asunder by forces which virtually or actually are forces of repulsion." And again : " The molecules do separate from each other when the external...repulsive, are in operation between every two atoms." It is obvious that he here conceives of Force as of a living Being pushing two objects asunder, or...

...force of repulsion ; why, then, do not the mutually repellent members of this group part company ? The molecules do separate from each other when the external...the position of every atom — its distance from its fellows — is determined by the equilibration of these two forces. If the atoms come too near, repulsion...

...force of repulsion ; why, then, do not the mutually repellent members of this group part company ? The molecules do separate from each other when the external...the position of every atom — its distance from its fellows — is determined by the equilibration of these two forces. If the atoms come too near, repulsion...

...nat ure within the corpuscles, by reason of their transparency.' (Herschel, ' On Light,' art. 1 145.) of this stability is that two forces, the one attractive...between every two atoms ; and the position of every atom is determined by the equilibration of these two forces. When the atoms approach too near each other,...

...force of repulsion ; why, then, do not the mutually repellent members of this group part company ? The molecules do separate from each other when the external...The reason of this stability is that two forces, the ono attractive and the other repulsive, are in operation between every two atoms ; and the position...