6. Describe how the molecular level structure contributes to the strength of covalently bonded polymers.
A. The polarization of bonds allows the materials to bond even with neutral materials.
B. The transfer of electrons between the atoms allows for strong connections and conductivity.
C. The covalent network of overlapping orbitals and conjugation allows the atoms to bond
strongly.
D. The metallic bonding in the conductive polymers allows electrons freely strengthening the
bonds.

What is the number of moles in 15.0 g ash3?

Why do you suppose the structural polysaccharide cellulose does not contain branches? why do you suppose the structural polysaccharide cellulose does not contain branches? branches in the molecule would generate side chains that would almost certainly make it difficult to pack the cellulose molecules into globules, thereby decreasing the flexibility and strength of the globules. branches in the molecule would generate side chains that would almost certainly make it difficult to pack the cellulose molecules into microfibrils, thereby increasing the rigidity and strength of the microfibrils. branches in the molecule would generate side chains that would almost certainly make it difficult to pack the cellulose molecules into globules, thereby increasing the flexibility and strength of the globules. branches in the molecule would generate side chains that would almost certainly make it difficult to pack the cellulose molecules into microfibrils, thereby decreasing the rigidity and strength of the microfibrils.

Deferentiate volatile and non volatile acid