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ionic compounds - Coggle Diagram
ionic compounds
What are the similarities and differences between ionic compounds and macromolecules
Similarities
some of the macromolecules would to from the ionic compound, because the macromolecules just the larger numbered the atoms so that still would be possible that the macromolecules will have ionic compound, one of the example of it would be proteins. Proteins consist from long strings of amino acids held together by peptide linkages. Some of these amino acids have acidic side-chains ( aspartic and glutamic acid). Others have basic side-chains (lysine, arginine, and histidine)
difference
there is no Similarities between the macromolecules, because that the macromolecules are composed of much larger numbers of atoms than ordinary molecules. They from in to different meaning in the chemistry.
what is the macromolecules?
macromolecule, any very large molecule, usually with a diameter ranging from about 100 to 10,000 angstroms (10−5 to 10−3 mm). In the normal place the major maromolecules are amino acid ( protein), fatty acid (lipids), sugar residues (carbohydrate), nucleobases (DNA|RNA)
What are the similarities and differences between ionic compounds and metallic materials
Both ionic solids and metallic solids exist in the solid state, but they differ in composition and properties. The primary distinction between ionic and metallic solids is that ionic solids are made up of cations and anions, whereas metallic solids are made up of metal atoms and free electrons.
What is the metallic materials?
Metallic materials are inorganic substances, usually combinations of metallic elements, such as iron, titanium, aluminum, and gold, which may also contain small amounts of non-metallic elements, such as carbon, nitrogen, and oxygen.
What are the similarities and differences between ionic compounds and simple covalent compounds
Similarities
The valence electrons are involved in both bonding processes, however the specifics differ. Valence electrons are obtained or lost in ionic bonding to generate a charged ion, whereas valence electrons are shared directly in covalent bonding.
The molecules formed as a result of ionic and covalent bonding are electrically charged.
Both ionic and covalent bonds have a set number of forms. Ionic bonds are formed when a fixed number of ions join together to form an electrically neutral whole, with the number of ions varying based on the excess charges on the ions involved. They bond according to the quantity of electrons in covalent bonding.
Differences
The variations between bonds are simpler to notice, but they're just as significant in understanding chemical bonding. The way the bonds are created is the most noticeable distinction. However, there are a number of other distinctions that are equally important.
In covalent bonding, the individual components are electrically neutral, whereas in ionic bonding, they are both charged. When they're dissolved in a solvent, this has significant effects. Individual molecules formed by covalent bonding do not conduct electricity unless they are ionized through another reaction. An ionic compound like sodium chloride (table salt) conducts electricity when dissolved because the components are charged, but individual molecules formed by covalent bonding do not conduct electricity unless they are ionized through another reaction.
ionic compounds
Properties of ionic compounds:
High melting and boiling points and high melting points like sodium chloride, magnesium hydroxide, and aluminum hydroxide..
Ionic compounds are good electrolytes because polar compounds often dissolve in water.
Ionic compounds form when atoms connect to one another by ionic bonds.
Ionic bond is the strongest type of chemical bond
Ionic bonds between Mg2+ and O2- ions are stronger than those between Na+ and Cl- ions
