ion-dipole attractions are stronger because they have a larger charge. the bigger the charge, the stronger the attractive force. induced dipole-induced dipole as weak Van der Waal's forces and even smaller charge....less than 1 usually, hence weaker.
Because ions are a whole 1+ or 2-, whereas dipoles are "a little bit (-) or a little bir (+)." So the stronger the charge, the stronger the attraction for the opposite charge.And that an Ion has a much bigger electrical charge there fore it attracts with more strenght than a dipole.
Yes, viscosity can be used to predict the strength of intermolecular attractions. Higher viscosity indicates stronger intermolecular forces because it requires more energy to overcome these forces, resulting in a thicker and more resistant fluid. Conversely, lower viscosity indicates weaker intermolecular attractions.
Liquid A, with stronger intermolecular attractions, will have a higher viscosity compared to liquid B. This is because the stronger forces between the particles in liquid A make it more resistant to flow, as the particles are less able to move past one another easily. In contrast, liquid B's weaker attractions allow its particles to slide more freely, resulting in lower viscosity. Thus, at the same temperature, liquid A will exhibit higher viscosity due to its stronger intermolecular forces.
No. A polar molecule (such as water) has partial positive and negative charges at each end, but these partial charges balance out to zero overall, leaving the molecule as a whole neutral. This is due to electrons being shared unevenly be the atoms in the molecule. A "charged molecule" would not be called a molecule. It would be called a polyatomic ion. A polyatomic ions has an overall net charge due to there being a different number of protons and electrons.
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.
Because ions are a whole 1+ or 2-, whereas dipoles are "a little bit (-) or a little bir (+)." So the stronger the charge, the stronger the attraction for the opposite charge.And that an Ion has a much bigger electrical charge there fore it attracts with more strenght than a dipole.
Attractions between water molecules, such as hydrogen bonding, are stronger than the dispersion forces between carbon dioxide molecules. This results in water requiring more energy to break these intermolecular attractions and reach its boiling point than carbon dioxide.
Yes, viscosity can be used to predict the strength of intermolecular attractions. Higher viscosity indicates stronger intermolecular forces because it requires more energy to overcome these forces, resulting in a thicker and more resistant fluid. Conversely, lower viscosity indicates weaker intermolecular attractions.
The ionic bond is stronger in calcium carbonate (CaCO3) than in NaCl. This is because calcium carbonate has a higher charge on the ions involved in the bond, resulting in stronger electrostatic attractions between them.
Liquid A, with stronger intermolecular attractions, will have a higher viscosity compared to liquid B. This is because the stronger forces between the particles in liquid A make it more resistant to flow, as the particles are less able to move past one another easily. In contrast, liquid B's weaker attractions allow its particles to slide more freely, resulting in lower viscosity. Thus, at the same temperature, liquid A will exhibit higher viscosity due to its stronger intermolecular forces.
In solids, molecules have the greatest attractions for one another. That is why molecules in a solid barely move around or switch positions. In gases, the molecules move around quickly and freely, so their attractions are weak. Liquids are in between. So, to answer: solid.
Yes. In polar bonds, electrons between atoms are shared unequally. The more electronegative atom has a high electron affinity, pulling the shared electron (and ajacent atom) closer to it, creating a shorter, stronger bond.
because there are lots of attractions
Bounty is stronger because it has the most cushuns.
Because they do
Milwaukee because it is the oldest city in Wisconsin Madison because it is the Capitol
o course the union because they are stronger