To determine the substance with the highest boiling point in a set of compounds, you need to compare their molecular structures and intermolecular forces. The substance with stronger intermolecular forces, such as hydrogen bonding or dipole-dipole interactions, will typically have a higher boiling point. Additionally, larger molecules tend to have higher boiling points due to increased surface area for intermolecular interactions.
Tungsten has the highest boiling point among all known elements and compounds.
If you want the substance with the highest boiling point, choose a substance with strong intermolecular forces, such as ionic compounds or metals.
The substance with the highest boiling point is the one you should choose.
The substance with the highest boiling point among the options provided would be the one with the strongest intermolecular forces, such as hydrogen bonding or dipole-dipole interactions.
The highest boiling point beween these compounds: potassium iodide (KI) with 1 330 0C.
Tungsten has the highest boiling point among all known elements and compounds.
If you want the substance with the highest boiling point, choose a substance with strong intermolecular forces, such as ionic compounds or metals.
The substance with the highest boiling point is the one you should choose.
ionic
The substance with the highest boiling point among the options provided would be the one with the strongest intermolecular forces, such as hydrogen bonding or dipole-dipole interactions.
The highest boiling point beween these compounds: potassium iodide (KI) with 1 330 0C.
The compound with the highest boiling point will have the strongest intermolecular forces, such as hydrogen bonding or ion-dipole interactions, which require more energy to break. Examples of compounds with high boiling points include water (due to hydrogen bonding) and ionic compounds like sodium chloride (due to strong ion-dipole interactions).
Boiling points of elements and compounds vary, as do the scale units you are using. It depends on the fluid. For water it is 100 degrees centigrade, 212 degrees fahrenheit. Helium has the lowest known boiling point, -268.9° C (-452° F), tungsten is thought to have the highest, about 5900° C (10,650° F), at the atmospheric pressure at sea level.
The compound with the highest boiling point is NaF. This compound is ionic, and has a high boiling point because of the strong attraction between the sodium and fluorine ions that it consists of. On the other hand, the other compounds are all covalent and are held together only by weaker intermolecular forces.
MgO and CaO have higher boiling points compared to NaCl and HCl, and CO2 and SO2. This is because MgO and CaO are ionic compounds that have stronger electrostatic forces between ions, leading to higher boiling points. NaCl and HCl are also ionic compounds but have lower boiling points compared to MgO and CaO. CO2 and SO2 are molecular compounds with weaker intermolecular forces, resulting in lower boiling points compared to the ionic compounds.
No. Ionically bonded compounds have very poor conductivity as there are no free electrons
TeCl2 is expected to have the highest boiling point among OCl, SCl2, SeCl2, and TeCl2 because it has the largest atomic size and highest molar mass. As molecular size and molar mass increase, the van der Waals forces between molecules also increase, resulting in higher boiling points.