high melting point.
ionic bonds have strong bonds and molecular bonds have very strong bonds.
Ionic bonds in compounds such as NaCl and covalent bonds in say diamond (C) and quartz (SiO2)
The bonds between the atoms are too strong
False
The bonds that exist between 2 H atoms are covalent bonds, and also Hydrogenbonds. Hydrogenbonds are very strong intermolecular forces.
ionic bonds have strong bonds and molecular bonds have very strong bonds.
Ionic bonds in compounds such as NaCl and covalent bonds in say diamond (C) and quartz (SiO2)
In quartz, a three-dimentional framework is developed through the complete sharing of oxygen by adjacent silicon atoms. Thus, all of the bonds in quartz are of the strong silicon-oxygen type. Consequently, quartz is hard, resistant to weathering, and does not have cleavage!
The bonds between the atoms are too strong
False
The bonds that exist between 2 H atoms are covalent bonds, and also Hydrogenbonds. Hydrogenbonds are very strong intermolecular forces.
In the chemical bonds of its monomers.
Hydrogen bonds are weak bonds that are not strong enough to hold atoms together to form molecules but are strong enough to form bonds within and around large molecules.
Because carbon has a double bond gving it double the strength
The question makes no sense. There's no such thing as a "nitrogen bond". If you mean "nitrogen atoms", then there are no hydrogen bonds between nitrogen atoms. If you mean "hydrogen bonds between a hydrogen and a nitrogen", then they break like any other hydrogen bond; they aren't really "bonds", just relatively strong electrostatic forces.
Metal atoms are held together by strong Electrostatic forces that make metals typically strong and solid. Non metals are held together by ether Covalent bonds between two non metals, Ionic bonds between a metal and a non metal.
Metal atoms are held together by strong Electrostatic forces that make metals typically strong and solid. Non metals are held together by ether Covalent bonds between two non metals, Ionic bonds between a metal and a non metal.