This means that the unknown compound does conduct electricity. The compound was tested and had a pH of 5. This means that the compound is acidic according to the pH scale. Being acidic means that the substance has more hydrogen ions than hydroxide ions according to “pH”3 .The chemical and physical properties are stated in Table 1. The compound was soluble in water and hydrochloric acid, but was not soluble in sodium hydroxide, toluene, and acetone as indicated by Table 2. For a compound to be soluble it means that the compound must be able to dissolve in a certain liquid. This was proven by using the solubility tests. Since the unknown compound was soluble in water it means that it is a polar or ionic compound, and since it is soluble in hydrochloric acid it means that it is probably an organic base. It was soluble in water because water is a polar molecular and since it’s polar, the molecules interact using hydrogen bonds and dipole-dipole intermolecular forces. This then leads to the fact that the partial negative and positive parts of the water molecule can break the bonds of ionic and polar molecules which causes them to dissolve within the
This means that the unknown compound does conduct electricity. The compound was tested and had a pH of 5. This means that the compound is acidic according to the pH scale. Being acidic means that the substance has more hydrogen ions than hydroxide ions according to “pH”3 .The chemical and physical properties are stated in Table 1. The compound was soluble in water and hydrochloric acid, but was not soluble in sodium hydroxide, toluene, and acetone as indicated by Table 2. For a compound to be soluble it means that the compound must be able to dissolve in a certain liquid. This was proven by using the solubility tests. Since the unknown compound was soluble in water it means that it is a polar or ionic compound, and since it is soluble in hydrochloric acid it means that it is probably an organic base. It was soluble in water because water is a polar molecular and since it’s polar, the molecules interact using hydrogen bonds and dipole-dipole intermolecular forces. This then leads to the fact that the partial negative and positive parts of the water molecule can break the bonds of ionic and polar molecules which causes them to dissolve within the