Chemistry Practice Test 7


According to Trouton’s rule, the ratio between the enthalpy of vaporization and boiling point is equal to

  • A. 88 JK-1mole-1
  • B. 10.5 JK-1mole-1
  • C. 55 JK-1mole-1
  • D. 27JK-1mole-1
  • E. 85 JK-1mole-1
  • Answer: A
  • Explanation: According to Trouton’s rule, the ratio between the enthalpy of vaporization and boiling point is equal to 88 JK-1mole-1.


Doping of IV A group element Ge with the V A group element Ar produces

  • A. Insulator
  • B. Conductor
  • C. p-type semiconductor
  • D. n-type semiconductor
  • E. Can’t be predicted
  • Answer: D
  • Explanation: Doping of Ge with Ar produces n-type semiconductor, which can conduct electricity through electrons.


Choose the correct statement from the following. Consider Tob - Boiling point of pure solvent, Tb – Boiling point of the solution.

  • A. Tob > Tb
  • B. Tob = Tb
  • C. Tob < Tb
  • D. Tob = Tb = 0
  • E. None of the above
  • Answer: C
  • Explanation: Boiling point of the solution is always greater than that of the pure solvent, because there is an elevation in the boiling point by the addition of solute to the solvent.


Predict the conjugate base of the following acids.
I) H2SO4 II) N3H

  • A. I-H+, II-H+
  • B. I-SO3, II-N2
  • C. I-(SO4)2-, II-(N3)-
  • D. I-HSO4-, II-(N3)-
  • E. I-H+, II-N2
  • Answer: D
  • Explanation: An acid-base pair, which is differed by only one proton is called as conjugate acid-base pair. In the above case, conjugate base of sulphuric acid is HSO4- and for N3H the conjugate base is N3-.


In which of the following processes will entropy decrease?

  • A. Boiling of water
  • B. Freezing of liquid
  • C. Melting of ice
  • D. Expansion of a gas
  • E. Dissolving solute in a solvent
  • Answer: B
  • Explanation: Entropy will decrease while freezing the liquid, because in freezing, a liquid changes to a solid. Generally a solid will have less entropy than a liquid.


All radioactive transformations follow

  • A. Zero order kinetics
  • B. First order kinetics
  • C. Second order kinetics
  • D. Third order kinetics
  • E. These are complex reactions. Can’t predict the rate order.
  • Answer: B
  • Explanation: All the radioactive kinetics follow first order kinetics. The rate of the reaction depends only on the concentration of one of the reactants.


Choose the correct statement from the following.
I) In an electrochemical cell reaction, the half-cell in the left side corresponds to the anode, and the half-cell in the right side corresponds to the cathode.
II) Oxidation reaction occurs at anode and reduction reaction occurs at cathode.
III) Current flows from the cathode to the anode.

  • A. I only
  • B. II and III
  • C. I and III
  • D. I, II and III
  • E. I and II
  • Answer: E
  • Explanation: Statements I and II are correct with respect to electrochemical cell reactions, whereas the III statement is not correct. In an electrochemical cell current flows from the anode to the cathode.


When the 4s orbital is complete, the new electron will enter the

  • A. 4p orbital
  • B. 4d orbital
  • C. 4f orbital
  • D. 3d orbital
  • E. 5s orbital
  • Answer: D
  • Explanation: Based on Aufbau principle, in the ground state the electrons occupy the low energy orbital first then they will occupy the higher energy orbitals. The energy order of orbitals is 4s< 3d< 4p< 5s< 4d.


Which of the given pair(s) is an example for isobars?

  • A. 6C14, 7N14
  • B. 1H1, 1H2
  • C. 7N15, 8O16
  • D. 6C12, 6C13
  • E. None of the above
  • Answer: A
  • Explanation: Isobars are different chemical elements that have the same number of nucleons. In other words, isobars differ in proton number but have the same mass number. Here, the first pair alone has different proton number but the same mass number.


Which one of the given alkyl halides is more reactive in SN2 reaction?

  • A. CH3I
  • B. CH3Br
  • C. CH3Cl
  • D. CH3F
  • E. All the alkyl halides have the same reactivity
  • Answer: A
  • Explanation: Generally, carbon halogen bond is more polar due to the electronegativity of the halides. In halides iodine has the largest size. Therefore, it polarizes easily than the rest of the halides and leaves the carbon more easily than other halides do. Because iodine is a weaker base, so it leaves quickly.


Which of the following has the highest boiling point?

  • A. n-octane
  • B. Isooctane
  • C. n-pentane
  • D. Isopentane
  • E. Neopentane
  • Answer: A
  • Explanation: Generally, there is a regular increase in the boiling point as the carbon number increases. So, a molecule with more number of carbon atoms has higher boiling point. Therefore, octane and isooctane will have the highest boiling point. Between octane and isooctane, octane will have the highest boiling point, because the branched alkanes have lesser boiling point than the linear chain alkanes.


The freezing point of a 0.01 m aqueous solution of NaCl will be

  • A. 0oC
  • B. Below 0oC
  • C. 1oC
  • D. 2oC
  • E. 2.5oC
  • Answer: B
  • Explanation: There is always change (depression) in the freezing point by the addition of solute to a solvent. Therefore, the freezing point of NaCl solution will be lower than that of water. Water’s freezing point is zero degree.


The acid dissociation constant Ka is equal to

  • A. [HA]/[H+][A+]
  • B. [H+][A-]/[HA]
  • C. [H+]/[HA]
  • D. [A+]/[HA]
  • E. None of the above
  • Answer: B
  • Explanation: The acid dissociation constant Ka is defined as the ratio between the concentrations of the ions present in that acid to that of the concentration of the undissociated acid.
    Ka= [H+][A-]/[HA]


For a reaction ΔS = 170 J/mol.k and ΔH = 170 KJ/mol. At what temperature would the reaction be spontaneous?

  • A. 298 k
  • B. 500 k
  • C. 700 k
  • D. 999 k
  • E. 1100 k
  • Answer: E
  • Explanation: ΔG = ΔH - TΔS
    Consider the reaction is in equilibrium,
    0 = ΔH – TΔS
    T = ΔH/ΔS = (170 KJ/mol) / (170 J/mol.k) = (170 × 103J/mol) / (170 J/mol.k) = 1000k
    For a spontaneous reaction ΔG < 0, to be ΔG < 0, T should be above 1000 k.
    Therefore, at T = 1100 k the reaction would be spontaneous.


The sum of the powers of the concentration terms that occur in the rate equation is called

  • A. Rate
  • B. Rate constant
  • C. Order
  • D. Half life
  • E. Mole fraction
  • Answer: C
  • Explanation: The sum of the powers of the concentration terms that occur in the rate equation is called order of the reaction.

Score: 0/10