Q. What happens to the pressure of a gas if the volume is halved at constant temperature?
-
A.
It doubles
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B.
It halves
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C.
It remains the same
-
D.
It quadruples
Solution
According to Boyle's Law, if the volume is halved, the pressure doubles at constant temperature.
Correct Answer: A — It doubles
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Q. What happens to the pressure of a gas if the volume is halved while the temperature remains constant?
-
A.
Pressure doubles
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B.
Pressure halves
-
C.
Pressure remains the same
-
D.
Pressure quadruples
Solution
According to Boyle's Law, if the volume is halved, the pressure doubles.
Correct Answer: A — Pressure doubles
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Q. What happens to the vapor pressure of a solution as the concentration of a non-volatile solute increases?
-
A.
It increases.
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B.
It decreases.
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C.
It remains constant.
-
D.
It fluctuates.
Solution
As the concentration of a non-volatile solute increases, the vapor pressure of the solution decreases according to Raoult's Law.
Correct Answer: B — It decreases.
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Q. What happens to the vapor pressure of a solvent when a non-volatile solute is added?
-
A.
It increases
-
B.
It decreases
-
C.
It remains the same
-
D.
It fluctuates
Solution
The vapor pressure of a solvent decreases when a non-volatile solute is added due to the solute particles occupying space at the surface.
Correct Answer: B — It decreases
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Q. What happens to the vapor pressure of a solvent when a volatile solute is added?
-
A.
It increases.
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B.
It decreases.
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C.
It remains the same.
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D.
It becomes zero.
Solution
The addition of a volatile solute decreases the vapor pressure of the solvent due to the presence of solute molecules.
Correct Answer: B — It decreases.
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Q. What happens to the volume of a gas if the temperature is increased at constant pressure?
-
A.
It decreases
-
B.
It increases
-
C.
It remains the same
-
D.
It becomes zero
Solution
According to Charles's law, the volume of a gas increases with an increase in temperature at constant pressure.
Correct Answer: B — It increases
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Q. What happens to the volume of a gas when the pressure is increased at constant temperature?
-
A.
Increases
-
B.
Decreases
-
C.
Remains the same
-
D.
Becomes zero
Solution
According to Boyle's Law, the volume of a gas decreases when pressure increases at constant temperature.
Correct Answer: B — Decreases
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Q. What is denaturation of proteins?
-
A.
The process of protein synthesis
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B.
The loss of protein function due to structural changes
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C.
The formation of peptide bonds
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D.
The folding of proteins into their functional shape
Solution
Denaturation refers to the process where proteins lose their native structure and function due to external factors like heat or pH changes.
Correct Answer: B — The loss of protein function due to structural changes
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Q. What is Raoult's Law primarily used to describe?
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A.
The behavior of ideal gases
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B.
The vapor pressure of solutions
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C.
The boiling point elevation
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D.
The freezing point depression
Solution
Raoult's Law states that the vapor pressure of a solvent in a solution is directly proportional to the mole fraction of the solvent.
Correct Answer: B — The vapor pressure of solutions
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Q. What is Raoult's Law primarily used to determine?
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A.
Vapor pressure of a solution
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B.
Boiling point elevation
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C.
Freezing point depression
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D.
Molarity of a solution
Solution
Raoult's Law states that the vapor pressure of a solvent in a solution is directly proportional to the mole fraction of the solvent.
Correct Answer: A — Vapor pressure of a solution
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Q. What is the atomic number of the element with the symbol 'Na'?
Solution
Sodium (Na) has an atomic number of 11.
Correct Answer: A — 11
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Q. What is the basic building block of proteins?
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A.
Nucleotides
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B.
Fatty acids
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C.
Amino acids
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D.
Monosaccharides
Solution
Proteins are made up of amino acids, which are their basic building blocks.
Correct Answer: C — Amino acids
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Q. What is the basic structural unit of proteins?
-
A.
Nucleotide
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B.
Monosaccharide
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C.
Amino acid
-
D.
Fatty acid
Solution
Proteins are made up of long chains of amino acids.
Correct Answer: C — Amino acid
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Q. What is the basic unit of nucleic acids?
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A.
Amino acid
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B.
Nucleotide
-
C.
Monosaccharide
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D.
Fatty acid
Solution
The basic unit of nucleic acids, such as DNA and RNA, is the nucleotide.
Correct Answer: B — Nucleotide
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Q. What is the basic unit of proteins?
-
A.
Nucleotide
-
B.
Monosaccharide
-
C.
Amino acid
-
D.
Fatty acid
Solution
Proteins are made up of amino acids, which are their basic building blocks.
Correct Answer: C — Amino acid
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Q. What is the boiling point elevation of a solution containing 1 mol of NaCl in 1 kg of water? (K_b for water = 0.512 °C kg/mol)
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A.
0.512 °C
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B.
1.024 °C
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C.
1.536 °C
-
D.
2.048 °C
Solution
Boiling point elevation = i * K_b * m = 2 * 0.512 * 1 = 1.024 °C (i = 2 for NaCl)
Correct Answer: B — 1.024 °C
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Q. What is the boiling point of a liquid?
-
A.
The temperature at which vapor pressure equals atmospheric pressure
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B.
The temperature at which a liquid freezes
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C.
The temperature at which a liquid evaporates
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D.
The temperature at which a liquid condenses
Solution
The boiling point is defined as the temperature at which the vapor pressure of a liquid equals the atmospheric pressure.
Correct Answer: A — The temperature at which vapor pressure equals atmospheric pressure
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Q. What is the boiling point of a solution containing 0.5 mol of KCl in 1 kg of water? (K_b for water = 0.512 °C kg/mol)
-
A.
1.024 °C
-
B.
0.512 °C
-
C.
1.536 °C
-
D.
2.048 °C
Solution
Boiling point elevation = i * K_b * m = 2 * 0.512 * 0.5 = 0.512 °C; Boiling point = 100 + 0.512 = 100.512 °C
Correct Answer: C — 1.536 °C
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Q. What is the boiling point trend among alcohols, ethers, and alkanes?
-
A.
Alcohols > Ethers > Alkanes
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B.
Ethers > Alcohols > Alkanes
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C.
Alkanes > Ethers > Alcohols
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D.
All have the same boiling point
Solution
Alcohols have higher boiling points than ethers and alkanes due to hydrogen bonding.
Correct Answer: A — Alcohols > Ethers > Alkanes
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Q. What is the bond angle around the carbon atoms in an alkyne?
-
A.
120 degrees
-
B.
180 degrees
-
C.
109.5 degrees
-
D.
90 degrees
Solution
The bond angle around the carbon atoms in an alkyne is approximately 180 degrees due to linear geometry.
Correct Answer: B — 180 degrees
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Q. What is the bond angle in a methane (CH4) molecule?
-
A.
90 degrees
-
B.
109.5 degrees
-
C.
120 degrees
-
D.
180 degrees
Solution
In methane, the bond angle is approximately 109.5 degrees due to its tetrahedral geometry.
Correct Answer: B — 109.5 degrees
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Q. What is the bond angle in a tetrahedral molecule?
-
A.
90 degrees
-
B.
120 degrees
-
C.
109.5 degrees
-
D.
180 degrees
Solution
In a tetrahedral geometry, the bond angles are approximately 109.5 degrees.
Correct Answer: C — 109.5 degrees
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Q. What is the bond angle in a trigonal planar molecule?
-
A.
120 degrees
-
B.
109.5 degrees
-
C.
180 degrees
-
D.
90 degrees
Solution
In a trigonal planar geometry, the bond angles are 120 degrees.
Correct Answer: A — 120 degrees
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Q. What is the bond angle in a water molecule (H2O) according to VSEPR theory?
-
A.
120 degrees
-
B.
109.5 degrees
-
C.
104.5 degrees
-
D.
90 degrees
Solution
The bond angle in H2O is approximately 104.5 degrees due to the two lone pairs on oxygen.
Correct Answer: C — 104.5 degrees
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Q. What is the bond angle in a water molecule (H2O)?
-
A.
120 degrees
-
B.
109.5 degrees
-
C.
104.5 degrees
-
D.
180 degrees
Solution
The bond angle in H2O is approximately 104.5 degrees due to the two lone pairs on oxygen.
Correct Answer: C — 104.5 degrees
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Q. What is the bond angle in water (H2O)?
-
A.
90 degrees
-
B.
104.5 degrees
-
C.
120 degrees
-
D.
180 degrees
Solution
The bond angle in water (H2O) is approximately 104.5 degrees.
Correct Answer: B — 104.5 degrees
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Q. What is the bond order of the CO molecule?
Solution
CO has a bond order of 3, calculated as (10 bonding - 3 antibonding)/2.
Correct Answer: C — 3
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Q. What is the bond order of the ion O2-?
Solution
O2- has a bond order of 1, calculated as (10 bonding electrons - 7 antibonding electrons)/2 = 1.
Correct Answer: B — 2
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Q. What is the bond order of the molecule B2 according to molecular orbital theory?
Solution
B2 has a bond order of 1, calculated as (2 bonding - 0 antibonding)/2.
Correct Answer: B — 1
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Q. What is the bond order of the molecule B2?
Solution
B2 has a bond order of 1, calculated from its molecular orbital configuration.
Correct Answer: A — 1
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