β
Solids in different categories based on the nature of intermolecular forces operating in them:
π Potassium sulphate β Ionic bond is formed,wherein potassium loses electrons & sulphate gains electrons
π Tin β Tin can form two ions Sn 2+ or Sn4+ now depending on what form it is in and what other element it is bonding with then only the type of bonding will be known
π Benzene β it is comprise of sp2 hybridized carbon atoms which makes covalent bond with each other by mutual sharing &pairing of electrons
π Urea β Polar molecular solid & they mostly forms hydrogen bond with other atoms
π Ammonia β covalently bondedΒ polar compound formed by mutual sharing & pairing of electrons between nitrogen & three hydrogen atoms
π Water β covalentlyΒ bondedΒ polar compound formed by mutual sharing of electrons between oxygen & hydrogen atoms
π Zinc sulphide β it exist in the form of crystals & makes coordination bond
π Graphite β it consist of carbon atoms & have covalent bond between them forming a 2-D (flat, planar etc.) network, which in itself is strong. These planes are then held together by London Forces, which are very weak.
π Rubidium β Metallic bond is formed by rubidium because it is a metal.Metallic bond is hydrid of covalent bond & ionic bond
π Argon β Non-polar molecular solid
π Silicon carbide β Covalent or network solid
π Potassium sulphate β Ionic bond is formed,wherein potassium loses electrons & sulphate gains electrons
π Tin β Tin can form two ions Sn 2+ or Sn4+ now depending on what form it is in and what other element it is bonding with then only the type of bonding will be known
π Benzene β it is comprise of sp2 hybridized carbon atoms which makes covalent bond with each other by mutual sharing &pairing of electrons
π Urea β Polar molecular solid & they mostly forms hydrogen bond with other atoms
π Ammonia β covalently bondedΒ polar compound formed by mutual sharing & pairing of electrons between nitrogen & three hydrogen atoms
π Water β covalentlyΒ bondedΒ polar compound formed by mutual sharing of electrons between oxygen & hydrogen atoms
π Zinc sulphide β it exist in the form of crystals & makes coordination bond
π Graphite β it consist of carbon atoms & have covalent bond between them forming a 2-D (flat, planar etc.) network, which in itself is strong. These planes are then held together by London Forces, which are very weak.
π Rubidium β Metallic bond is formed by rubidium because it is a metal.Metallic bond is hydrid of covalent bond & ionic bond
π Argon β Non-polar molecular solid
π Silicon carbide β Covalent or network solid