Aromatic compounds

1.Arenes do not show?
(a) Delocalization of pi-Electrons
(b) Greater Stability
(c) Resonance
(d) Electrophilic Additions
Answer: (d)
Video Explanation

  1. Find the most stable carbonium ion here?
    (a) CH3CH2+
    (b) C6H5CH2+
    (c) C6H5CH2CH2+
    (d) (C6H5)2+
    Answer: (a)
    Video Explanation

3- Which of the following are most likely to be o,p directing??
(a) Deactivating
(b) Neutral
(c) Activating
(d) All of these
Answer: (c)
Video Explanation

  1. formed predominantly in the reaction of Toluene with chlorine in the presence of FeCl3? The product
    (a) m-chlorotoluene
    (b) o & p chlorotoluene
    (c) Benzoyl Chloride
    (d) Benzyl Chloride
    Answer: (b)
    Video Explanation
  2. Which of the following will not undergo Friedel-Craft’s reaction readily?
    (a) Toluene
    (b) Xylene
    (c) Cumene
    (d) Nitrobenzene
    Answer: (d)
    Explanation
    In nitrobenzene, the strong electron withdrawing nitro group deactivates the aromatic ring towards elctrophilic aromatic substitution by reducing the electron density.
    Hence, nitro benzene will not undergo Friedal-Craft’s reaction easily.
    Video Explanation

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  1. The product formed, when benzene reacts with CH3COCl in the presence of AlCl3 is?
    (a) C6H5CH3
    (b) C6H5Cl
    (c) C6H5COCH3
    (d) C6H5COCl
    Answer: (c)
    Video Explanation
  2. Toluene can be oxidized to produce what?
    (a) Benzaldehyde
    (b) Benzoic Acid
    (c) O-xylene
    (d) All of above
    Answer: (b)
    Video Explanation
  3. Under which temperature, with a mild catalyst does toluene oxidize to benzaldehyde?
    (a) High
    (b) Moderate
    (c) Low
    (d) None of these
    Answer: (b)
    Video Explanation
  4. which of the following is the most activating in electrophilic aromatic substitution??
    (a) NH2
    (b) NO2
    (c) CN
    (d) NHCOCH3
    Answer: (a)
    Video Explanation
  5. In benzene sulphonic acid the group is attached with the benzene ring through?
    (a) Oxygen
    (b) Sulphur
    (c) Hydrogen
    (d) OH
    Answer: (b)
    Video Explanation

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Thermodynamics

  1. Heat does not spontaneously flow from a colder body to a hotter one. Which of the following thermodynamics law states this?
    (a) Zeroth law of thermodynamics
    (b) First law of thermodynamics
    (c) Second law of thermodynamics
    (d) Third law of thermodynamics
    Answer: (c)
  2. Which of the following is an application of thermodynamics?
    (a) Refrigerators
    (b) Gas compressors
    (c) Power plants
    (d) All of the mentioned
    Answer: (d)
    Explanation
    The second law of thermodynamics applies to all refrigerators, deep freezers, industrial refrigeration systems, all forms of air-conditioning systems, heat pumps, and so on. Thermodynamic cycles govern the operation of all forms of air and gas compressors, blowers, and fans. The study of the feasibility of employing various forms of renewable energy sources for household and commercial purposes is an important topic area of thermodynamics.
  3. Which of the following is a type of thermodynamic system?
    (a) Open system
    (b) Closed system
    (c) Thermally isolated system
    (d) All of the mentioned
    Answer: (d)
    Explanation
    The types of thermodynamic systems are:
    i) Open system
    ii) Closed system
    iii) Thermally isolated system
    iv) Mechanically isolated system
    v) Isolated system
  4. Which of the following occurs without a change in the internal energy?
    (a) Isochoric process
    (b) Isenthalpic process
    (c) Steady-state process
    (d) Isenthalpic process
    Answer: (c)
    Explanation
    The following are some of the most commonly studied thermodynamic processes:
    i) Heat does not lose or acquire energy in an adiabatic process.
    ii) At a constant enthalpy, the isenthalpic process occurs.
    iii) The isobaric process happens when the pressure remains constant.
    iv) The isochoric process (also known as isometric/isovolumetric) happens at a constant volume.
    v) At a constant temperature, an isothermal process occurs.
    vi) Internal energy does not change in a steady-state operation.
    vii) Isentropic process: adiabatic reversible process with constant entropy.
  5. What is the value of the absolute thermodynamic temperature scale?
    (a) 3K
    (b) 0K
    (c) 1K
    (d) 4K
    Answer: (b)
    Explanation
    The temperature of an object on a scale with 0 as absolute zero is known as absolute temperature, also known as thermodynamic temperature.
    Kelvin and Rankine are absolute temperature scales.
  6. Which of the following follows the Carnot theorem?
    (a) Heat engines
    (b) Gas turbine engines
    (c) Gas compressors
    (d) All of the mentioned
    Answer: (d)
    Explanation
    Carnot’s Theorem
    Carnot’s theorem, also known as Carnot’s rule, or the Carnot principle, can be stated as follows:
    No heat engine operating between two heat reservoirs can be more efficient than a reversible heat engine operating between the same two reservoirs.
    The simplest way to prove this theorem is to consider the scenario shown below, in which we have an irreversible engine as well as a reversible engine operating between the reservoirs TH and TL, however the irreversible heat engine has a higher efficiency than the reversible one.

7.Which of the following processes is used to do maximum work done on the ideal gas that is compressed to half of its initial volume?
(a) isothermal
(b) isochoric
(c) isobaric
(d)adiabatic
Answer: (d)

8. What is the ratio of Cp/Cv for gas if the pressure of the gas is proportional to the cube of its temperature and the process is an adiabatic process?
(a) 2
(b) 3/2
(c) 4/3
(d) 5/3
Answer: (b)

  1. Which of the following laws was formulated by Nernst?
    (a) First law of thermodynamics
    (b) Second law of thermodynamics
    (c) Third law of thermodynamics
    (d) None of the above
    Answer: (c)
  2. The standard condition for enthalpy changes are
    (a) the pressure of 100 kPa
    (b) temperature 298K
    (c) normal physical state
    (d) all of above
    Answer: (d)
    Explanation
    If we are to compare the enthalpy changes of a various reactions we must use standard conditions, such as known temperature, pressures, amounts and concentrations of reactants or products.
    The standard conditions are: A pressure of 1atm, a temperature of 298K. The standard conditions in most cases are known as STP.
  3. The application of law of thermodynamics to the enthalpy change was done by
    (a) Newton
    (b) Hess’s
    (c) Lewis
    (d) Sophocles
    Answer: (b)
  4. Pick out the Clausius-Clapeyron equation from the following?
    (a) dP/dT = ΔH/TΔV
    (b) ln P = – (ΔH/RT) + constant
    (c) ΔF = ΔH + T [∂(ΔF)/∂T]P
    (d) None of these
    Answer: (b)
  5. Clausius Clapeyron equation applies to the _ process?
    (a) Sublimation
    (b) Melting
    (c) Vaporisation
    (d) All A., B. & C.
    Answer: (d)
  6. Which of the following requirement is satisfied by a phase change of the first order?
    (a) there are changes of volume and entropy
    (b) the first-order derivative of the Gibbs function changes discontinuously
    (c) both of the mentioned
    (d) none of the mentioned
    Answer: (c)
    Explanation
    We describe a first-order phase transition of a simple system in a process where the volume is kept constant. We show that, unlike what happens when the pressure is constant,
    (i) the transformation extends over a finite temperature (and pressure) range,
    (ii) each and every extensive potential (internal energy U, enthalpy H, Helmholtz energy F, and Gibbs energy G), and the entropy S is continuous across the transition, and
    (iii) the constant-volume heat capacity does not diverge during the transition and only exhibits discrete jumps.

15.What is the mathematical formula for Boyle-Van’t Hoff law ?
(a) p ∝ C
(b) p ∝ nV
(c) p ∝ 1V
(d) π ∝ nV
Answer: (d)
Explanation
The van’t Hoff-Boyle’s law states that at constant temperature the volume of an ideal gas is inversely proportional to the pressure of the gas.
Van’t Hoff Boyle Law of solution :
→ At constant temperature the osmotic pressure (⊓) of a delute solution is directly proportional to its molar concentration (C) or inversely proportional to volume (V) of the solution.
Explanation : π∝C but C=Vn​
∴π∝Vn​→π∝V1​
Or say πV= constant [ n is no. of moles of solute dissolved in liters ]
Van’t Hoff Charle’s Law of solution :
→The concentration remaining constant, the osmotic pressure (π) of a dilute solution is directly proportional to absolute temperature (T) of the solution.
Explanation : π∝T
Tπ​= constant.

  1. Which is true for the entropy of a spontaneous reaction? (PPSC 2021)?
    (a) ΔS(system) – ΔS(surroundings) > 0
    (b) ΔS(system) + ΔS(surroundings) > 0
    (c) ΔS(surroundings) > 0 only
    (d) ΔS(system) > 0 only
Oplus_0

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