Both are non polare and Both have weak attractive forces, thus they can easily leave their own kind to mix with each other. Intermolecular force is only dispersion (London dispersion force). The strength of the London Dispersion Forces (LDF) depends on how easily the electron cloud of an atom or molecule can be distorted or polarized. The closer molecules can approach each other, the stronger the LDF.
Electrically the protons repel each other, right? So what keeps them united? The answer is that there is a stronger force between nucleons - protons and neutrons. This force is called the "strong force". The strong force between two protons is not strong enough to keep them together (against the electrostatic force); but if there are some neutrons present, the situation changes, because the strong force acts between protons, but also between protons and neutrons.
Dispersion.
The weak force is the force of attraction between atoms.
The magnetic force between currents moving in the oppoiste directions is repulsive.
The interaction between charged objects is a non-contact force that acts over force of attraction between two balloons that are charged with the opposite type.
attractive force present between ammonia ions repulsive force also exist but not at high rate
Dipole forces and London forces are present between these molecules.
It is obviously a Gravitational force of attraction present between earth and object.
The difference between strength and hardness is that the strength refers to the force that is present between the bonds. Strength attributes to how strong or weak the force between the bonds. Hardness refers to the nature of the force, which basically is how rigid or flexible the bonds between particles.
No. There's no such law, because as far as any research findings in Physics up to the present time, there is no apparent relation between gravitational force and electromagnetic force.
If you meant "prevent" motion, rather than "present" motion, the answer is friction.
Yes friction force present between all two rolling or sliding objects.
No. Gravitational force is present between every two mass bodies, and the force on each body is the same.
Water and benzene will have a work of adhesion rather than a work of cohesion as this is the work associated with the connection between two things as opposed to cohesion which is the force holding one thing together. The expression for the work of adhesion is: gamma of the liquid vapour interface + gamma of solid vapour interface - gamma of solid liquid interface. Where gamma is surface tension.
Because the size is a kintec force on it
I, you, we, they force. He, she, it forces.
Electrically the protons repel each other, right? So what keeps them united? The answer is that there is a stronger force between nucleons - protons and neutrons. This force is called the "strong force". The strong force between two protons is not strong enough to keep them together (against the electrostatic force); but if there are some neutrons present, the situation changes, because the strong force acts between protons, but also between protons and neutrons.