A. Oxidation
B. Reduction
C. Neutralization
D. Precipitation
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A) Oxidation: Sulfuric acid and ammonia do not participate in an oxidation-reduction reaction, where one substance loses electrons (oxidation) and another gains electrons (reduction).
B) Reduction: Sulfuric acid and ammonia do not participate in an oxidation-reduction reaction, so reduction is not the correct type of reaction.
C) Neutralization (Correct Answer): When sulfuric acid reacts with ammonia, a neutralization reaction occurs. The acidic hydrogen ions (H+) from sulfuric acid react with the basic ammonia molecules (NH3) to form ammonium ions (NH4+) and sulfate ions (SO4^2-), resulting in the formation of an ammonium sulfate salt.
D) Precipitation: A precipitation reaction occurs when two solutions react to form an insoluble solid (precipitate). However, sulfuric acid and ammonia do not form an insoluble product when they react. Therefore, precipitation is not the correct type of reaction for this scenario.
Therefore, the Correct Answer is C.
What do bases react with?
A. Acids to produce salts and water
B. Salts to produce acids and water
C. Water to produce acids and salts
D. Neither acids, salts, nor water
The Correct Answer is A.A) Acids to produce salts and water (Correct Answer): Bases react with acids to form salts and water. This reaction is a common characteristic of bases, where they accept protons (H+) from acids to form water and salts.
B) Salts to produce acids and water: Bases typically do not react with salts to produce acids and water. The reaction between a base and a salt is not a common reaction in chemistry.
C) Water to produce acids and salts: Bases do not react with water to produce acids and salts. Bases can ionize in water to produce hydroxide ions (OH-) but do not typically react with water to produce acids and salts.
D) Neither acids, salts, nor water: Bases do react with acids to form salts and water, making choice D incorrect. Bases do not react with salts or water to produce acids, salts, or water.
What is the Brønsted-Lowry definition of an acid and base?
A. Acids are electron donors and bases are electron acceptors.
B. Acids are proton donors and bases are proton acceptors.
C. Acids are proton acceptors and bases are proton donors.
D. Acids are compounds that increase the concentration of hydroxide ions in solution and bases are compounds that increase the concentration of hydrogen ions in solution.
The Correct Answer is B.A) Acids are electron donors and bases are electron acceptors: This statement describes the Lewis definition of acids and bases, which focuses on the transfer of electron pairs, rather than the Brønsted-Lowry definition, which involves the transfer of protons.
B) Acids are proton donors and bases are proton acceptors. (Correct Answer): According to the Brønsted-Lowry definition, an acid is a substance that donates a proton (H+ ion), while a base is a substance that accepts a proton.
C) Acids are proton acceptors and bases are proton donors: This statement incorrectly describes the roles of acids and bases according to the Brønsted-Lowry definition. Acids donate protons, while bases accept protons.
D) Acids are compounds that increase the concentration of hydroxide ions in solution and bases are compounds that increase the concentration of hydrogen ions in solution: This statement does not accurately represent the Brønsted-Lowry definition. Acids and bases are defined based on their behavior regarding proton transfer, not changes in ion concentration.
Why is ethanoic acid a weak acid?
A. Because it reacts slowly with bases
B. Because it forms a basic solution when dissolved in water
C. Because it only partially dissociates in solution
D. Because it has a low pH value
The Correct Answer is C.Rationale for each choice:
A) Because it reacts slowly with bases: The rate of reaction with bases does not determine whether an acid is weak or strong. Ethanoic acid's reaction rate with bases is not a primary factor in its classification as a weak acid.
B) Because it forms a basic solution when dissolved in water: This statement is incorrect. Ethanoic acid is an acid and forms acidic solutions when dissolved in water.
C) Because it only partially dissociates in solution (Correct Answer): Ethanoic acid is considered a weak acid because it only partially dissociates into hydrogen ions (H+) and acetate ions (CH3COO-) in solution. This partial dissociation results in a lower concentration of hydrogen ions compared to strong acids.
D) Because it has a low pH value: While weak acids generally have higher pH values compared to strong acids, the pH value alone does not determine whether an acid is weak or strong. Ethanoic acid's weak acidity is primarily attributed to its partial dissociation in solution, rather than its pH value.
What color do acids make litmus paper turn?
A. Red
B. Yellow
C. Blue
D. Black
The Correct Answer is A.A) Red (Correct Answer): Acids turn litmus paper red. Litmus paper is a common indicator that changes color in response to changes in acidity or alkalinity. Acids change the blue litmus paper to red.
B) Yellow: Acids do not typically turn litmus paper yellow. Litmus paper is generally unaffected by acids in a way that would cause it to turn yellow.
C) Blue: Acids do not turn litmus paper blue. Instead, they change blue litmus paper to red.
D) Black: Acids do not turn litmus paper black. Litmus paper is not expected to change to black in the presence of acids.
Which statement regarding metal and non-metal oxides is not true?
A. Metal oxides are bases and forms alkalis in water.
B. Non-metal oxides form acids in water.
C. Solutions of non-metal oxides change red litmus blue.
D. Metal oxides color universal indicator blue and non-metal oxides color it red.
The Correct Answer is C.A. Metal oxides are bases and form alkalis in water: This statement is generally true. Metal oxides typically react with water to form basic solutions (alkalis). Therefore, this statement is true.
B. Non-metal oxides form acids in water: This statement is generally true. Non-metal oxides typically react with water to form acidic solutions. Therefore, this statement is true.
C. Solutions of non-metal oxides change red litmus blue: This statement is not true. Non-metal oxides typically form acidic solutions in water, which would not change red litmus paper to blue. Instead, they would typically turn blue litmus paper red.
D. Metal oxides color universal indicator blue and non-metal oxides color it red: This statement is generally true. Metal oxides tend to produce basic solutions, which turn universal indicator blue. Non-metal oxides tend to produce acidic solutions, which turn universal indicator red. Therefore, this statement is true.
Why is NaCl neutral?
A. Because it contains both hydrogen and hydroxide ions in equal amounts
B. Because it contains hydrogen ions (H+) and hydroxide ions (OH-) in equal amounts
C. Because it does not contain any hydrogen or hydroxide ions
D. Because it dissociates completely in water
The Correct Answer is C.Rationale for each choice:
A) Because it contains both hydrogen and hydroxide ions in equal amounts: This statement is incorrect. NaCl (sodium chloride) does not contain hydrogen or hydroxide ions. It dissociates into sodium ions (Na+) and chloride ions (Cl-) in water, not hydrogen or hydroxide ions.
B) Because it contains hydrogen ions (H+) and hydroxide ions (OH-) in equal amounts: This statement is incorrect. NaCl does not contain hydrogen or hydroxide ions. In aqueous solution, NaCl dissociates into sodium ions and chloride ions, not hydrogen or hydroxide ions.
C) Because it does not contain any hydrogen or hydroxide ions (Correct Answer): NaCl is a neutral compound composed of sodium ions (Na+) and chloride ions (Cl-). It does not contain any hydrogen or hydroxide ions, so it is neutral in aqueous solution.
D) Because it dissociates completely in water: NaCl does dissociate in water, but its dissociation does not involve the generation of hydrogen or hydroxide ions. It dissociates into sodium ions and chloride ions, which do not contribute to the pH of the solution. Therefore, the completeness of dissociation does not determine its neutrality.
A solution with a pH of 5.0 _____.
A. has a hydrogen-ion concentration of 5.0M
B. is neutral
C. has a hydroxide-ion concentration of 1 x 10 –9 M
D. None of the above
The Correct Answer is D.a. is basic: Incorrect. Solutions with pH values less than 7 are acidic, not basic. A pH of 5.0 indicates an acidic solution.
b. has a hydrogen-ion concentration of 5.0M: Incorrect. The pH value does not directly provide information about the concentration of hydrogen ions. pH is a logarithmic scale that measures the concentration of hydrogen ions in a solution.
c. is neutral: Incorrect. Solutions with a pH of 7 are considered neutral. A pH of 5.0 indicates an acidic solution.
d. has a hydroxide-ion concentration of 1 x 10 –9 M: Incorrect. This statement relates to the calculation of hydroxide-ion concentration in a neutral solution using the Kw value (the ion product of water). It does not directly pertain to the pH value of the solution.
Strong bases are:
A. Strong electrolytes
B. Weak electrolytes
C. Nonelectrolytes
D. Also strong acids
The Correct Answer is A.a. Strong electrolytes (Correct Answer): Strong bases completely dissociate into ions in solution, making them strong electrolytes. They conduct electricity well due to the presence of a high concentration of ions.
b. Weak electrolytes: Strong bases, unlike weak bases, completely dissociate in solution, resulting in a high concentration of ions. Therefore, they are considered strong electrolytes, not weak electrolytes.
c. Nonelectrolytes: Nonelectrolytes do not ionize in solution and do not conduct electricity. Strong bases, however, ionize completely in solution, making them strong electrolytes.
d. Also strong acids: Strong bases and strong acids are two distinct types of compounds. Strong bases ionize completely in solution to produce hydroxide ions, while strong acids ionize completely to produce hydrogen ions (H+). They are not the same.
When copper sulfate is made by reacting copper oxide with sulfuric acid, the acid is heated. Why?
A. To increase the rate of reaction
B. To decrease the rate of reaction
C. To prevent the formation of byproducts
D. To decrease the energy of activation
The Correct Answer is A.A) To increase the rate of reaction (Correct Answer): Heating the sulfuric acid increases the kinetic energy of the particles, leading to more frequent and energetic collisions between the reactant particles. This, in turn, increases the rate of reaction between copper oxide and sulfuric acid, facilitating the production of copper sulfate.
B) To decrease the rate of reaction: Heating typically increases the rate of reaction by providing more energy for particles to overcome the activation energy barrier. Decreasing the temperature would slow down the reaction, which is not the intended outcome in this scenario.
C) To prevent the formation of byproducts: While heating may influence the selectivity of reactions and the formation of byproducts in some cases, the primary purpose of heating sulfuric acid in this context is to increase the rate of reaction rather than to prevent the formation of byproducts.
D) To decrease the energy of activation: Heating increases the energy of particles, helping them overcome the energy barrier required for the reaction to occur. Therefore, heating sulfuric acid would increase the energy of activation rather than decrease it.
Why is dry hydrogen chloride gas not acidic?
A. Because it does not react with water
B. Because it does not contain hydrogen ions (H+)
C. Because it contains hydrogen ions but not chloride ions (Cl-)
D. Because hydrogen is bonded to chlorine in dry HCl and not dissociated
The Correct Answer is D.A) Because it does not react with water: While dry hydrogen chloride gas does not react with water, the absence of this reaction does not inherently determine its acidity. Acidity is determined by the presence of hydrogen ions in solution.
B) Because it does not contain hydrogen ions (H+): Dry hydrogen chloride gas does not contain free hydrogen ions, which are characteristic of acidic solutions. However, the absence of hydrogen ions alone does not explain why dry hydrogen chloride gas is not acidic.
C) Because it contains hydrogen ions but not chloride ions (Cl-): Dry hydrogen chloride gas does not contain free chloride ions, but the presence of hydrogen ions is crucial for acidity. However, the absence of chloride ions alone does not fully explain why dry hydrogen chloride gas is not acidic.
D) Because hydrogen is bonded to chlorine in dry HCl and not dissociated (Correct Answer): Dry hydrogen chloride gas does not dissociate into hydrogen ions (H+) and chloride ions (Cl-) because there is no water present to facilitate dissociation. Therefore, it does not exhibit acidic properties in the absence of dissociation.