For me it's a tie between Death Metal and Progressive Metal.
a million. A. Hydrogen Bonding. Hydrogen bonding is the most valuable intermolecular stress interior NH2CH3 as no longer purely does it hydrogen bond interior it self yet also facilitates Nitrogen to have a lone pair with helps with London-Dispersion Forces. 2. C. the answer's supersaturated because inspite of the nice and cozy temperature utilized (the lively dissolving produces warmth), the solute isn't totally dissolved. If the answer became unsaturated it would have dissolved totally on contact. If it were saturated it would have taken stirring and then it would have thoroughly dissolved. 3. London Dispersion Forces. also time-venerated as Van der Waals, those forces enable non everlasting polar dipole interactions to adhere to different Hydrogen gasses (H2). Your welcome :)
metals tend to have high Van Der Waal's forces because of their large mass, but have relatively low intermolecular forces compared to polar molecules or hydrogen bonds.
No, because there are no molecules in metals. In metals there is strong metallic bonding between each metal atom and its neighbours. Metallic bonding is neither ionic nor covalent. Each metal atom loses control of it own valence/outer shell electrons, they become delocalised, and move about between the atoms. This kind of bonding is the strong force which gives metals their hardness and high melting points and boiling points. Hardest and highest when each atom has several valence electrons ie the transition metals but quite soft and low when each atom has only one valence electron eg Group 1 metals. It is these mobile electrons which enable metals to conduct electricity when they are all made to move in te same direction!!