bromide
In solids the attraction is stronger.
solid
Liquid a, with stronger intermolecular attractions, will have a higher viscosity compared to liquid b due to the greater resistance to flow caused by these interactions. Viscosity is a measure of a liquid's resistance to flow and is influenced by the strength of intermolecular forces within the liquid.
Oxygen has a stronger force of attraction compared to helium because oxygen has a higher atomic number and more protons, resulting in stronger electrostatic forces between its nucleus and electrons.
particles move because when they do not the attraction of a particle and another stops making the particle theory wrong particles are always moving it what makes the attraction stronger
In solids the attraction is stronger.
solid
Forces of attraction have a stronger effect on the behavior of liquid particles.
yes
My Penis
In general, the attraction between particles in liquids is weaker than in solids. In liquids, particles have more freedom to move around, which is why liquids can flow and take the shape of their container. In solids, particles are held more tightly together, which is why solids have a definite shape and volume.
A solid has stronger attractions than a gas, assuming all else (including temperature) is equal. If the gas had stronger attractions, its particles would be in contact with each other.
liquid.
liquid.
A solid at 25 degrees Celsius would have stronger attractions among its submicroscopic particles compared to a gas at the same temperature. In a solid, the particles are closely packed together and have strong intermolecular forces, leading to less movement and a more ordered structure. On the other hand, in a gas, the particles are far apart, have weaker intermolecular forces, and move freely in random directions.
Potassium chloride has a higher boiling point than potassium because it is a compound made up of both potassium and chlorine ions, leading to stronger attraction forces between the molecules. This stronger attraction requires more energy to break the bonds between the ions, resulting in a higher boiling point compared to pure potassium.
The molar enthalpy of fusion is a measure of the energy required to break the intermolecular forces holding the particles together in a solid. A higher enthalpy of fusion indicates stronger intermolecular forces between particles, which suggests a stronger attraction between the solid's particles.