The molecules attract one another, via electric forces.
The inward force among the molecules of a liquid is Surface Tension
Yes
capillary action
a net inward force, due mostly to hydrogen bonding.
London dispersion forces the attraction OS instantaneous dipoles and included dipoles so you should select both A and C
The inward force among the molecules of a liquid is Surface Tension
The inward force among the molecules of a liquid is Surface Tension
The inward force among the molecules of a liquid is Surface Tension
Yes
gravity
Yes
Mercury has a much greater force of cohesion than its adhesive force with glass. Therefore, the molecule of mercury at the edge are pulled inward by the inner molecules.But,the molecules do not move inward as there movement is opposed by the inner molecules.This causes 'tension' among the molecules near the edge.So, the molecules of mercury near the edge rearrange themselves so that no unbalanced force acting upon the molecules of mercury.In doing so, they take a spherical shape.
No; "centripetal" implies an inward force.
From wikipedia:"The cohesive forces among liquid molecules are responsible for the phenomenon of surface tension. In the bulk of the liquid, each molecule is pulled equally in every direction by neighboring liquid molecules, resulting in a net force of zero. The molecules at the surface do not have other molecules on all sides of them and therefore are pulled inwards. This creates some internal pressure and forces liquid surfaces to contract to the minimal area."
capillary action
the force that is holding the molecules together
solid :)