Why is it difficult to test the presence of chloride in organic compounds than in inorganic ones like hydrochloric acid?
Why is it more difficult to test for the presence of chloride in organic compounds than in inorganic compounds like HCl?"
because chlorine is not organic compound it is an in organic compound and organic compound dissolves only in organic compound so therefore it is too difficult
Because of the presence of ions
Hydrogen Chloride, or commonly know as Hydrochloric acid in water, would give the lowest pH.Ammonia is a weak base, which is a slightly higher pH.Sodium Chloride is salt which does not affect pH significantly.Potassium Nitrate is another salt and dissociates in water, but sometimes in presence of other compounds can form the strong base Potassium Hydroxide, which raises pH.
The li mit t est for chloride is mainly used to control chloride impurity in the pharmaceutical material, depends upon the precipitation of chloride with silver nitrate in presence of nitric acid and comparison of precipitation produced in the sample with that of standard solution containing a known amount of chloride ion.
The name of this reaction is Friedel-Crafts acylation. It should have a major product adding a ketone at the para position with regard to the isopropyl of the cumene.
Carbon.
because chlorine is not organic compound it is an in organic compound and organic compound dissolves only in organic compound so therefore it is too difficult
Organic compounds are made from things which were once alive and, therefore, they contain carbon. Inorganic compounds, however, do not contain carbon.Carbon is an essential element in all organic compounds while inorganic compounds may or may not contain carbon.Organic compounds do not dissolve in water but dissolve in organic solvents. Most Inorganic compounds dissolve in water but not in organic solvents.Organic compounds have low melting and boiling points. Inorganic compounds have high melting and boiling points.Organic compounds form covalent bonds while inorganic compounds form ionic/electrovalent bonds.Organic compounds have color and odor while inorganic compounds are usually colourless and odorless.Organic compounds e.g. methane, ethane, acetylene, alcohols etc. Inorganic compounds e.g. carbon dioxide, sulphuric acid, salts etc.Organic compounds are produced by living things. Inorganic compounds are produced by non-living natural processes or by human intervention in the laboratory.The presence of carbon determines if a compound is organic or not. All organic compounds have carbon in them.
hahaha Fail!
sodium chloride, due to the presence of free moving ions.
An inorganic molecule is a substance that does not contain carbon; they are not normally found in living things. Actually, there are plenty of inorganic compounds in living things. But yes, as the name implies, inorganic chemistry is that chemistry that is not organic chemistry - the chemistry of carbon. A compound that contains no carbon. EDIT: Note that cyanide (CN), carbon monoxide and dioxide (CO, CO2), Carbonate (CO3^2-) etc. all contain carbon, but are not considered organic molecules. They are classed as inorganic. When classifying organic compounds, look for the presence of a carbon-hydrogen bond (C-H) in addition to just the presence of carbon.
Ionic compounds do not require the presence of a metal, for example ammonium chloride is ionic and does not contain a metallic element. What is true is that the majority of ionic compounds involve at least one metal.
Due to presence of chloride ion
The green plants perform photosynthesis and thus produce organic compounds like glucose from inorganic compounds like H2O and CO2 in their chloroplasts in the presence of light. All other food products are derivatives of photosynthetic products.
A membrane that encloses a versatile plant compartment that may hold reserves of organic compounds or inorganic ions tonoplast. The presence of cholesterol in the plasma membranes of some animals enables the membrane to stay fluid more easily when cell temperature drops.
well theres two ways you can do it, 1. you can combust the products, and if carbon dioxide is present using limewater, then the product is organic, and if no co2 produced then inorganic. 2. Heat the compound in air, and it residue is left behind then the compound is inorganic, and no residue = organic the problem with this was, a few sources say combust the compound, but when i wrote it in a school exam, the teacher marked it wrong and said you have to heat it in the presence of air. so just to be on the safe side, just write heating in the presence of air. =)
A fertilizer whose compounds are not animal- or plant-based and that nevertheless intends to enrich the soil is what inorganic manure is.Specifically, manure generally designates animal wastes. But among cultivators, farmers, gardeners and growers, it sometimes is used synonymously with fertilizer. An organic manure therefore originates in animal wastes. An inorganic manure requires the presence of either lab-created substances - such as lab-made urea - or naturally occurring non-organic compounds - such as gypsum, rock phosphate, or sulfur.