Strength is a property that depends on the material and its structure, rather than the state of matter. In general, solids tend to have higher strength compared to liquids due to their highly organized and fixed atomic arrangement. Liquids, on the other hand, have the ability to flow and deform under applied stress, which can make them seem less strong than solids.
The volume of a liquid is typically smaller than that of the corresponding solid because the molecules are more tightly packed in the solid phase due to the stronger intermolecular forces. In the case of nitrogen, the volume of liquid nitrogen is smaller than that of solid nitrogen because the molecules in liquid nitrogen are more closely packed than in solid nitrogen.
Solids are typically stronger than liquids and gases because the particles in a solid are densely packed and have stronger intermolecular forces. This allows solids to maintain their shape and resist deformation better than liquids and gases, which have more freedom of movement.
The interparticle distance is greater in a gas than in a liquid, and greater in a liquid than in a solid.
When a solid is placed in water, it will dissolve if the attractive forces between the water molecules and the solid molecules are stronger than the forces holding the solid molecules together. If the solid does not dissolve, it may remain suspended in the water as a suspension or sink to the bottom as a sediment.
The formation of solid-liquid solutions typically releases heat, as energy is usually given off when dissolving a solid in a liquid. This is because the intermolecular forces between the solute and solvent molecules are stronger than the forces holding the solute particles together, resulting in a net release of energy.
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The volume of a liquid is typically smaller than that of the corresponding solid because the molecules are more tightly packed in the solid phase due to the stronger intermolecular forces. In the case of nitrogen, the volume of liquid nitrogen is smaller than that of solid nitrogen because the molecules in liquid nitrogen are more closely packed than in solid nitrogen.
The force of attraction is generally stronger in the molecules of a solid compared to a liquid. In a solid, the molecules are closely packed and have limited movement, allowing for stronger intermolecular forces to hold them together. In a liquid, the molecules have more freedom to move, resulting in weaker intermolecular forces.
it depends on the solid with which the liquid comes in contact, if the adhesion is stronger the liquid wets the solid else i t cannot ; eg;- in the case of water and glass the adhesion is much stronger than cohesion ,on the other hand the cohesion is greater if you consider the case of water and certain leaves(in which water cant wet them).
Solids are typically stronger than liquids and gases because the particles in a solid are densely packed and have stronger intermolecular forces. This allows solids to maintain their shape and resist deformation better than liquids and gases, which have more freedom of movement.
Whether the solid will float or sink in a solid-liquid mixture depends on the relative densities of the solid and the liquid. If the density of the solid is greater than that of the liquid, then the solid will sink. If the density of the solid is less than that of the liquid, then the solid will float.
Iodine has stronger intermolecular forces.
That depends on the relative densities of the solid and the liquid. If the solid is denser than the liquid, the solid will sink. If the liquid is denser, the solid will float.
solid with hydrogen bonds making it less dense than its liquid form
the buoyant force of the liquid on the solid is more than the buoyant force of the air on the solid.
float, depending on its density relative to the density of the liquid. If the solid is denser than the liquid, it will sink. If the solid is less dense than the liquid, it will float.
Ice is a solid less dense than the liquid