Strong acids do several things easily
burn skin, neutralize bases and react with/ corrode metals.
This is all because of the free movement of the H+ ion
A strong base or strong acid completely dissociates in water, producing a high concentration of ions. Strong acids have a low pH and can donate protons easily, while strong bases have a high pH and can accept protons readily. Strong acids and bases are highly reactive and can cause severe burns or tissue damage.
A strong acid will produce the most hydronium ions in an aqueous solution, as it completely dissociates into hydronium ions and anions. Acids such as hydrochloric acid, sulfuric acid, and nitric acid are examples of strong acids.
Hydrochloric acid (HCl) is an example of a strong acid. It completely dissociates in water to form H+ ions and Cl- ions, making it a strong electrolyte. This dissociation results in a high concentration of H+ ions in solution, giving hydrochloric acid its characteristic strong acidic properties.
Chromic acid, H2CrO4, is a strong acid. It is a powerful oxidizing agent and will readily donate protons in solution.
This is based on acids. HNO3 is a strong acid.
Perbromic acid is a strong acid. It is a highly oxidizing agent due to the presence of multiple bromine atoms, making it capable of donating protons easily in solution.
Yes, chromic acid (H2CrO4) is a strong acid. It is a powerful oxidizing agent and can easily donate a proton in solution, making it a strong acid. It is commonly used in various industrial applications such as cleaning and metal surface treatment.
Hydrochloric acid is considered a strong acid because it dissociates completely in water to form H+ and Cl- ions, leading to a high concentration of ions in the solution. This high degree of dissociation makes hydrochloric acid a strong electrolyte and a powerful acid.
Sulfurous acid is a weak acid. It is a relatively unstable compound that easily decomposes into sulfur dioxide and water. When dissolved in water, sulfurous acid only partially dissociates into hydrogen ions, making it a weak acid.
Since hydrofluoric acid does not easily dissociate (in aqueous solution) to liberate protons, it is a weak acid.
Sulfuric acid reacts easily with sodium hydroxide to form sodium sulfate and water because sulfuric acid is a strong acid and sodium hydroxide is a strong base. This reaction occurs because both acids and bases react to form water and a salt. Hydrochloric acid may not react in the same way because it is a weaker acid compared to sulfuric acid.
There is no real basis for comparison but nitric acid is a strong acid and ammonia is a weak base.
A weak acid partially dissociates in water and has a lower tendency to donate protons. A strong acid fully dissociates in water and easily donates protons. This results in a difference in their ability to lower the pH of a solution.
The strength of an acid is determined by its ability to donate hydrogen ions in a solution. A strong acid completely ionizes in solution, while a weak acid only partially ionizes. This is reflected in the acid's equilibrium constant and pH value.
Strong
Yes, it is correct.
i thing strong acid