Viscosity is the thickness of the compound. The thicker the compound the higher the intermolecular forces. The higher the intermolecular forces the higher the boiling point is.
The stronger the intermolecular forces, the higher the melting point and boiling point. The weaker the intermolecular forces, the lower the melting and boiling points are.
Due to large number of hydrogen bonds viscosity and boiling points of sulphuric acid are high
Chlorine has higher boiling point.
Compounds with fully ionic bonds have higher boiling points than compounds without this feature, except for a few unusual, extensively three-dimensionally-bonded covalent compounds such a diamond and silica.
The melting points of organic compounds will vary and are related to the boiling points. Organic compounds that have strong cohesive forces will generally have higher melting points.
Ionic compounds generally have higher melting and boiling points.
The melting point is 25 oC.At higher temperature the oil is decomposed.The viscosity is 80 mPa (cP) at r.t.
They have a higher boiling point and lower melting point and is flamable.
KCl is an ionic compound and glucose is a molecular compound. Ionic compounds have higher boiling points than molecular compounds.
The stronger the intermolecular forces, the higher the melting point and boiling point. The weaker the intermolecular forces, the lower the melting and boiling points are.
Due to large number of hydrogen bonds viscosity and boiling points of sulphuric acid are high
This is false. Ionic compounds have higher boiling points than molecular compounds. For example, the boiling point of the ionic compounds copper(II) oxide, CuO, and sodium chloride, NaCl are 2,000 degrees C and 1,413 degrees C, respectively. The boiling point of the molecular compounds carbon tetrachloride, CCl4, and water, H2O are 76.72 degrees C and 100 degrees C, respectively.
Chlorine has higher boiling point.
high boiling point low melting point
The structure of a compound will dictate what intermolecular forces hold the molecules together. The stronger these forces, the higher will be the boiling point.
Compounds with fully ionic bonds have higher boiling points than compounds without this feature, except for a few unusual, extensively three-dimensionally-bonded covalent compounds such a diamond and silica.
The melting points of organic compounds will vary and are related to the boiling points. Organic compounds that have strong cohesive forces will generally have higher melting points.