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R.C. Mukherjee Test: Thermodynamics - NEET MCQ


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25 Questions MCQ Test Chemistry Class 11 - R.C. Mukherjee Test: Thermodynamics

R.C. Mukherjee Test: Thermodynamics for NEET 2024 is part of Chemistry Class 11 preparation. The R.C. Mukherjee Test: Thermodynamics questions and answers have been prepared according to the NEET exam syllabus.The R.C. Mukherjee Test: Thermodynamics MCQs are made for NEET 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for R.C. Mukherjee Test: Thermodynamics below.
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R.C. Mukherjee Test: Thermodynamics - Question 1

If Vf is the final volume and Vi is the initial volume and pex the external pressure the work done can be calculated by

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 1

Work done =- ∫ViVf pext dVwhere Vi is initial and Vf is final volume. Pex is the external pressure applied on system while change in volume

-ve sign is used as final volume vf will be less than initial volume v (vf<vi)
so to make final answer +ve a -ve sign is used .

R.C. Mukherjee Test: Thermodynamics - Question 2

Enthalpy is defined as

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 2

H =U+pV. H is enthalpy of reaction.

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R.C. Mukherjee Test: Thermodynamics - Question 3

Entropy is a state function and measures

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 3

Entropy is a state function and it is measure of randomness of a system.

R.C. Mukherjee Test: Thermodynamics - Question 4

Spontaneity in the context of chemical thermodynamics means

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 4

Spontaneity means a reaction occurring on its own without any help of external agency.

R.C. Mukherjee Test: Thermodynamics - Question 5

Enthalpy of combustion of carbon to CO2is –393.5 kJ mol−1. Calculate the heat released upon formation of 35.2 g of CO2from carbon and dioxygen gas.

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 5

when 1 mole of CO2 is produced energy released is –393.5 kJ mol−1 Moles of CO2 given =35.2/44 =0.8 moles So energy released = 0.8 x393.5 KJ/mol = 315 KJ/mol

R.C. Mukherjee Test: Thermodynamics - Question 6

The volume of gas is reduced to half from its original volume. The specific heat will

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 6

Specific heat will remain constant.

R.C. Mukherjee Test: Thermodynamics - Question 7

A cylinder confines 2.00 L gas under a pressure of 1.00 atm. The external pressure is also 1.00 atm. The gas is heated slowly, with the piston sliding freely outward to maintain the pressure of the gas close to 1.00 atm. Suppose the heating continues until a final volume of 3.50 L is reached. Calculate the work done on the gas.
 

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 7

R.C. Mukherjee Test: Thermodynamics - Question 8

A spherical constant temperature heat source of radius r1 is at the center of a uniform solid sphere of radius r2. The rate at which heat is transferred through the surface of the sphere is proportional to

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 8

The rate H at which heat is transferred through the slab is,

(a) directly proportional to the area (A) available.

(b) inversely proportional to the thickness of the slab Δx.

(c) directly proportional to the temperature difference ΔT.

So, H = kA ΔT/ Δx    

Where k is the proportionality constant and is called thermal conductivity of the material.

From above we know that the rate H at which heat is transferred through the slab is directly proportional to the area (A) available.

Area A of the solid sphere is defined as,

A = 4πr2

Here r is the radius of the sphere.

So, the area A1 of a uniform small solid sphere having radius r1 will be,

A1 = 4πr12

And, the area A2 of a uniform large solid sphere having radius r2 will be,

A2 = 4πr22

Thus the area A from which heat is transferred through the surface of the sphere will be the difference of area of uniform large solid sphere A2 and small solid sphere A1.

So, A = A2 - A= 4πr22 - 4πr1= 4π (r22 - r12)

Since the rate H at which heat is transferred through the slab is directly proportional to the area (A) available, therefore the rate at which heat is transferred through the surface of the sphere is proportional to r22 - r12.

R.C. Mukherjee Test: Thermodynamics - Question 9

For a process from state 1 to state 2, heat transfer in a reversible process is given by

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 9

Qreversible = T∆S
Hence, Q = To(S2-S1)

R.C. Mukherjee Test: Thermodynamics - Question 10

Suppose a 10.00-kg mass drops through a height difference of 3.00 m, and the resulting work is used to turn a paddle in 200.0 g water, initially at 15.00C. The final water temperature is found to be 15.35C. Assuming that the work done is used entirely to increase the water temperature, calculate the conversion factor between joules and calories.

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 10

R.C. Mukherjee Test: Thermodynamics - Question 11

The molar heat capacity of a substance is the

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 11

The molar heat capacity of a substance is the quantity of heat needed to raise the temperature of one mole by one degree Celsius.

R.C. Mukherjee Test: Thermodynamics - Question 12

If change in Gibbs energy ΔG is negative (< 0)

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 12

ΔG < 0 means reaction is spontaneous. And ΔG >0 means reaction is non spontanenous.

R.C. Mukherjee Test: Thermodynamics - Question 13

Calculate the standard enthalpy of formation of CH3OH(l) from the following data: 

CH3​OH(I)+3/2​O2​(g)→CO2​(g)+2H2​O(l);  △r​Hθ=−726kJmol−1

C(graphite)​+O2​(g)→CO2​(g);    △c​Hθ=−393kJmol−1

H2​(g)+1/2​O2​(g)→H2​O(l);    △f​Hθ=−286kJmol−1

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 13

R.C. Mukherjee Test: Thermodynamics - Question 14

During complete combustion of one mole of butane, 2658 kJ of heat is released. The thermochemical reaction for above change is ΔfUof formation of CH4 (g) at certain temperature is –393 kJ mol−1. The value of ΔfH0is

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 14

C4H10(g) + 13/2O2  →  4CO2(g) + 5H2O(l)
∆Ng = (ng)product - (ng)reactant
= 4-(13/2+1) = -7/2
or ∆Ng is negative.
∆H = ∆U + ∆NgRT
SInce ∆ng is negative therefore ∆H is less than ∆U.

R.C. Mukherjee Test: Thermodynamics - Question 15

In an adiabatic process, no transfer of heat takes place between system and surroundings. Choose the correct option for free expansion of an ideal gas under adiabatic condition from the following.

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 15

for free expansion Pext =0 so w=0 and for adiabatic process q=0 therefore ΔU =0 making ΔT=0

R.C. Mukherjee Test: Thermodynamics - Question 16

The relationship between Cp and CV for an ideal gas is

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 16

For ideal gas Cp - CV = nR. For1 mole of gas n=1.

R.C. Mukherjee Test: Thermodynamics - Question 17

Standard Molar Enthalpy of Formation is

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 17

The standard enthalpy change for the formation of one mole of a compound from its elements in their most stable states of aggregation is enthalpy of formation.

R.C. Mukherjee Test: Thermodynamics - Question 18

A thermodynamic state function is a physical quantity

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 18

State function is one which is only dependent on initial and final state of the system and is independent of the path by which that change has occurred.

R.C. Mukherjee Test: Thermodynamics - Question 19

Thermodynamics is not concerned about______.

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 19

Thermodynamics is not concerned about how and at what rate these energy transformations are carried out, but is based on initial and final states of a system undergoing the change. Laws of thermodynamics apply only when a system is in equilibrium or moves from one equilibrium state to another equilibrium state.

R.C. Mukherjee Test: Thermodynamics - Question 20

The pressure-volume work for an ideal gas can be calculated by using the expression   The work can also be calculated from the pV– plot by using the area under the curve within the specified limits. When an ideal gas is compressed (a) reversibly or (b) irreversibly from volume Vi to Vf . choose the correct option.

 

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 20

w (reversible) < w (irreversible) (for compression process)

  • Work done is the area under the P−V curve. It can be seen in the curve above that the area under the P−V curve for irreversible compression of the gas is more than the area under the curve for reversible compression.
  • Thus, work done for irreversible compression is more than that for reversible compression.
R.C. Mukherjee Test: Thermodynamics - Question 21

Suppose that 1.00 kJ of heat is transferred to 2.00 mol argon (at 298 K, 1 atm). What will the final temperature Tf be if the heat is transferred at constant volume?

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 21

since volume is constant so w=0 so q=ΔE=nCvΔT Cv=(3/2)R

Because  argon is monoatomic, approximately ideal gas,

cv = 3/2 R = 12.47 J K-1 mol-1

At constant volume,

q= n cv Δ T

1000J = (2.00 mol)(12.47 JK-1mol-1)ΔT

ΔT = 40.1 k Tf = 298 + 40.1 =338 K

R.C. Mukherjee Test: Thermodynamics - Question 22

An exothermic process

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 22

Exothermic process results in decrease in enthalpy of system because for exothermic reaction ΔH= -ve.

R.C. Mukherjee Test: Thermodynamics - Question 23

For the process to occur under adiabatic conditions, the correct condition is:

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 23

For adiabatic process Δq=0.

R.C. Mukherjee Test: Thermodynamics - Question 24

For an isolated system, ΔU = 0, what will be ΔS?

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 24

For an isolated system, ∆U = 0 and for a spontaneous process, total entropy change must be positive.

 For example, consider the diffusion of two gases A and B into each other in a closed container which is isolated from the surroundings.
The two gases A and B are separated by a movable partition. When partition is removed, the gases begin to diffuse into each other and the system becomes more disordered. It shows that ∆S > 0 and ∆U = 0 for this process.

 

R.C. Mukherjee Test: Thermodynamics - Question 25

The entropy change can be calculated by using the expression When water freezes in a glass beaker, choose the correct statement amongst the following :

Detailed Solution for R.C. Mukherjee Test: Thermodynamics - Question 25

For freezing of process since process is spontaneous therefore if ΔS (system) decreases but ΔS (surroundings) increases.

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