compound boiling point (k)\nnacl 1,738\npcl3 349\nco2 195\nlibr 1,538\ncao 3,120\nbased on the data, how do…

compound boiling point (k)\nnacl 1,738\npcl3 349\nco2 195\nlibr 1,538\ncao 3,120\nbased on the data, how do boiling points differ between ionic and covalent compounds?\nboiling points for ionic compounds are lower than boiling points for covalent compounds.\nboiling points for ionic compounds are higher than boiling points for covalent compounds.

compound boiling point (k)\nnacl 1,738\npcl3 349\nco2 195\nlibr 1,538\ncao 3,120\nbased on the data, how do boiling points differ between ionic and covalent compounds?\nboiling points for ionic compounds are lower than boiling points for covalent compounds.\nboiling points for ionic compounds are higher than boiling points for covalent compounds.

Answer

Brief Explanations:

Ionic compounds have strong electrostatic forces between ions, requiring more energy to break for boiling. Covalent compounds have weaker intermolecular forces. Analyzing the data, NaCl, LiBr, CaO (ionic) have high boiling - points compared to PCl₃ and CO₂ (covalent).

Answer:

Boiling points for ionic compounds are higher than boiling points for covalent compounds.