Question

Differentiate between the terms strength and concentration as they apply to acids and bases. When is HCl strong? Weak? Concentrated? Dilute? Answer the same questions for ammonia. Is the conjugate base of a weak acid a strong base?

Short answer

Strength refers to the degree of ionization or dissociation of an acid or base in water, while concentration refers to the amount of solute in a solution. HCl is a strong acid as it ionizes almost completely in water, while ammonia (NH3) is a weak base as it partially dissociates in water. The concentration of HCl or ammonia determines whether they are in a concentrated or dilute form. The conjugate base of a weak acid is generally considered to be a stronger base than the conjugate base of a strong acid, but it can still be a weak base depending on its ability to accept H+ ions.

Step-by-step solution

Definition of Strength

Strength refers to the degree of ionization or dissociation of an acid or base when dissolved in water. An acid is considered to be strong if it completely ionizes in water, releasing all its hydrogen (H+) ions. A base is considered to be strong if it completely dissociates in water, donating all of its hydroxide (OH-) ions. Conversely, weak acids and bases are those that only partially dissociate in water, releasing only some of their H+ or OH- ions, respectively.

Definition of Concentration

Concentration refers to the amount of an acid or base solute that is dissolved in a given volume of solution. This can be expressed in terms of molarity (moles of solute per liter of solution) or as a percentage by mass. A concentrated solution has a high amount of solute, while a dilute solution has a low amount of solute.

HCl – Strong or Weak?

Hydrochloric acid (HCl) is considered to be a strong acid because it ionizes almost completely in water, dissociating into hydrogen (H+) and chloride (Cl-) ions.

HCl – Concentrated or Dilute?

A concentrated HCl solution has a high amount of HCl solute, whereas a dilute HCl solution has a lower amount of HCl solute. It's important to note that the concentration of HCl doesn't affect its strength, as it remains a strong acid even when diluted.

Ammonia – Strong or Weak Base?

Ammonia (NH3) is considered to be a weak base because it partially dissociates in water, donating only some of its hydroxide (OH-) ions and forming ammonium (NH4+) ions.

Ammonia – Concentrated or Dilute?

As with HCl, ammonia can be in a concentrated or dilute form based on the amount of NH3 solute in the solution. A concentrated ammonia solution has a high amount of NH3, while a dilute solution has a lower amount.

Conjugate Base of a Weak Acid

The conjugate base of a weak acid is generally considered to be a stronger base than the conjugate base of a strong acid. However, this does not necessarily mean that the conjugate base of a weak acid will always be a strong base. The strength of the conjugate base depends on its ability to accept H+ ions. In some cases, the conjugate base of a weak acid can also be a weak base, such as the case with acetic acid (CH3COOH) and its conjugate base acetate (CH3COO-).

Key concepts

Strength of Acids and Bases

The strength of an acid or base is all about its ability to ionize or dissociate in water. When you think about strength, ask yourself, "Does it fully break apart in water?" If the answer is yes, then you are dealing with a strong acid or base. Strong acids, like hydrochloric acid (HCl), completely ionize, releasing all their hydrogen ions (H⁺) when mixed with water. This means in a solution, HCl will almost completely turn into hydrogen ions (H⁺) and chloride ions (Cl⁻). Similarly, a strong base, such as sodium hydroxide (NaOH), fully dissociates into its ions in water.

On the other hand, weak acids and bases only partially ionize in water. They release only some of their ions. For example, ammonia (NH₃) is a weak base because it only partially dissociates, creating a mixture of ammonia and ammonium ions (NH₄⁺) in water. So, while both strong and weak acids or bases perform the same role, the extent to which they do so defines their strength.

Concentration of Solutions

Concentration is a measure of how much of an acid or base is present in a given volume of solution. It's like counting how many solute particles are scattered throughout the liquid. Molarity, the most common unit of concentration, measures the number of moles of solute per liter of solution.

A solution can be concentrated or dilute, which tells us about the quantity of the solute. A concentrated solution has a large amount of solute particles in a small volume, whereas a dilute solution has few solute particles in the same amount of liquid.

• Concentrated HCl means there are lots of HCl molecules present, though each still dissociates completely as it remains a strong acid.
• For ammonia, a concentrated solution contains a high amount of NH₃ molecules, but it still functions as a weak base because it doesn't dissociate fully.

Remember, concentration does not affect the intrinsic strength of an acid or base; it simply measures the amount of acid or base in the solution.

Conjugate Acids and Bases

The concept of conjugate acids and bases relates to the pairs formed when acids and bases gain or lose an H⁺ ion during a reaction. Understanding these pairs helps explain the strength relationships between acids and bases. Essentially, when an acid gives up an H⁺ ion, it forms its conjugate base. When a base gains an H⁺ ion, it forms its conjugate acid.

• For example, when acetic acid (CH₃COOH) loses a proton, it becomes acetate (CH₃COO⁻), its conjugate base.
• Ammonia (NH₃), when it accepts a proton, forms ammonium (NH₄⁺) as its conjugate acid.

A fascinating detail about conjugates is how their strength is inversely related. The conjugate base of a strong acid, like HCl, is weak because after donating its proton, it has little tendency to reclaim it. Conversely, the conjugate base of a weak acid can be a stronger base by comparison, as it shows a greater ability to accept the hydrogen ion back. However, not all conjugate bases of weak acids are strong by default, as seen with acetate from acetic acid. Therefore, while conjugate bases of weak acids are stronger than those from strong acids, they can still vary significantly in their base strength.