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NEET Exam  >  NEET Tests  >  Chemistry Class 11  >  Test: Heat Capacity - NEET MCQ

Test: Heat Capacity - NEET MCQ


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17 Questions MCQ Test Chemistry Class 11 - Test: Heat Capacity

Test: Heat Capacity for NEET 2024 is part of Chemistry Class 11 preparation. The Test: Heat Capacity questions and answers have been prepared according to the NEET exam syllabus.The Test: Heat Capacity MCQs are made for NEET 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Heat Capacity below.
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Test: Heat Capacity - Question 1
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Direction (Q. Nos. 1-8) This section contains 8 multiple choice questions. Each question has four choices (a), (b), (c) and (d), out of which ONLY ONE option is correct.

Q. Specific heat of iron at 25°C and 1.00 bar is

Test: Heat Capacity - Question 2
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A rather soft, silvery metal was observed to have a specific heat of 0.225 cal K-1g-1. Thus, metal is

Detailed Solution for Test: Heat Capacity - Question 2

It should be better to remove this question. It's data based.

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Test: Heat Capacity - Question 3
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Specific heat of water is 4.184 JK-1g-1, Rise in temperature when 1 kJ of heat is absorbed by 2 moles of H2O is

Detailed Solution for Test: Heat Capacity - Question 3

We have,
Q = ms∆T
1000 = 2*18*4.184*∆T
∆T = 6.63 K

Test: Heat Capacity - Question 4
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The amount of the heat released when 20 ml 0.5 M NaOH is mixed with 100 ml 0.1 M HCl is x kJ. The heat of neutralization is 
Detailed Solution for Test: Heat Capacity - Question 4

Test: Heat Capacity - Question 5
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The heat capacity ratio, r was determined for cyanogen as 1.177. Thus, Cp for this gas is
Detailed Solution for Test: Heat Capacity - Question 5

γ = 1.177
CV = R/γ-1
= 8.314/0.177 = 46.97
Also γ = CP/CV 
1.177 = CP/46.97
​Or CP = 55.28

Test: Heat Capacity - Question 6
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Assuming the composition of air to be X (N2) = 0.80, X (O2) = 0.18 and X (CO2) = 0.02, molar heat capacity of air at constant pressure is
Detailed Solution for Test: Heat Capacity - Question 6

(Cp)mixture = (µ1Cp12Cp23Cp3+.........)/µ123+.........   where µ is the no of moles.
Or (Cp)mixture = ƞ1Cp12Cp23Cp3+.............  Where ƞ is the corr. mole fraction.
On putting the values, we have 
Cpmixture= ( 7/2*0.8 +7/2*0.18 +4*0.02)R
=3.15R

Test: Heat Capacity - Question 7
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Latent heat of fusion of ice is 6.02 kJ mol-1. The heat capacity of water is 4.18 Jg-1K-1. 500 g of liquid water is to be cooled from 20°C to 0°C . Number of ice cubes (each of one mole) required is
Detailed Solution for Test: Heat Capacity - Question 7

Molecular mass of hydrogen = 1  

Molecular mass of oxygen =16  

Molecular mass of water = 18 gram per mole  

As,

n = m / M

n = 500 / 18

n = 27.8 moles  

For cooling 27.8 moles at 20 = 27.8 x 75.4 x 20 = 41.922 kilo joule

41.922/6  = 6.987 that is approximately equal to 7  

So, the number of ice cubes that are required to cool the water will be 7.

Test: Heat Capacity - Question 8
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Sulphur (2.56 g) is burned in a constant volume calorimeter with excess O2(g). The temperature increases from 21.25°C to 26.72°C . The bomb has a heat capacity of 923 JK-1. Calorimeter contains 815 g of water. Thus, change in internal energy per mole of SO2 formed for the reaction is

(specific heat of water is 4.184 JK-1g-1.)
Detailed Solution for Test: Heat Capacity - Question 8

Moles of S8 = 2.56/256 = 0.01
So, moles of SO2  formed = 0.08
Rise in temperature = (273+26.72)K - (273+21.25)K
= 5.47 K
Total Energy in internal energy (as system is at constant volume) = -(923 jK-1 × 5.47 +815g×4.18)
= -23701.29 J = -23.70129 kJ
Thus change in internal energy per mole of formed = -23.7012kJ/0.08 = -296.3 kJ

Test: Heat Capacity - Question 9
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Direction (Q. Nos. 9) This sectionis based on statement I and Statement II. Select the correct answer from the code given below.

Q.

Statement I : Cv value of helium (He) is always 3/2R but Cv value of hydrogen (H2) is 3/2R at low temperature, 5/2R at moderate temperature and more than 5/2R at higher temperature.

Statement II : At lower temperature, only translational degree of freedom contributes to heat capacity while at higher temperature, rotational and vibrational degrees of freedom also contribute to heat capacity.
Detailed Solution for Test: Heat Capacity - Question 9

In case of helium (monoatomic gas) we have only three degrees of freedom which correspond to three translational motion so the total heat capacity will increase. The contributors by vibrational motion are not appreciable at low temperature but increase from 0 to R when temperature increases.
CV=−f(R)/2
CV=-f(R)2, where f is the degree of freedom. At low temperature only translational motion is considered and f=3
∴CV=3R/2
f=3.∴CV=3R2 At moderate temperature both translational and rotational motions are considered. 
f=3+2
f=3+2 (3-translational and 2 rotational). 
∴CV=5R/2
∴CV=5R2. At still high temperature translational, rotational and vibrational motions are considered. 
f=3+2+2
f=3+2+2 (3-translatinal , 2-rotational, 2-vibrational). 
∴CV=7R/2

*Multiple options can be correct
Test: Heat Capacity - Question 10
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Direction (Q. Nos. 10-11) This section contains 2 multiple choice questions. Each question has four
choices (a), (b), (c) and (d), out of which ONE or  MORE THANT ONE  is correct.

Q. Select the correct alternate(s).
*Multiple options can be correct
Test: Heat Capacity - Question 11
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Select the correct alternate(s).
Detailed Solution for Test: Heat Capacity - Question 11

CP-CV = R = 2 cal
CP-CV = [3+(2x10-2)T cal mol-1 K-1] -  [1+(2 x 10-2)T cal mol-1 K-1] = 2
∆H = CP(T2-T1) = (CV + R)(T2-T1)
∆E = CV(T2-T1) = (CP-R)(T2-T1)

*Answer can only contain numeric values
Test: Heat Capacity - Question 12
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Direction (Q. Nos. 12 - 14) This section contains 3 questions. when worked out will result in an integer from 0 to 9 (both inclusive).

Q. An 88.5 g piece of iron whose temperature is 352.0 K is placed in a beaker containing 244 g of water at 292.0 K. When thermal equilibrium is reached, what is the change in the temperature of water?
Specific heat of water and iron are (4.184 Jg-1 K-1) and (0.449 Jg-1 K-1), respectively.

Detailed Solution for Test: Heat Capacity - Question 12

Heat lost by iron = Heat gained by water
Let the equilibrium temperature be T.
mIronsIron (352-T) = mwaterswater(T-292)
88.5×0.449×(352-T) = 244×4.18×(T-292)
On calculation approximation, 
40(352-T) = 1020(T-292)
0.04(352-T) = (T-292)
T = 306/1.04 = 294 K
So, change in temperature of water = 294-292 = 2K

*Answer can only contain numeric values
Test: Heat Capacity - Question 13
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The heat capacity of a calorimeter (commonly called the calorimeter constant) was determined by heating the calorimeter and its content using an electrical heater. If ΔT = 1.221 K as 1.25 A of electricity at 3.26 V was passed through the heater immersed in 137.5 g of water in the calorimeter for 175 s, determine the calorimeter constant (in JK-1). (Specific heat of water at constant pressure is 75.291 JK-1 mol-1).

Detailed Solution for Test: Heat Capacity - Question 13

Subtracting the energy gained by the cold water from the energy lost by the hot water. This will give us the amount of energy gained by the calorimeter. Dividing the energy gained by the calorimeter by Tc (the temperature change of the cold water). This final answer is calorimeter constant
ms(dT)=137.5×4.184×1.221=702
joules=coulomb×volt =. 1.25×175×3.26=713
713 - 702 = 11
(11/1.221) = 9

*Answer can only contain numeric values
Test: Heat Capacity - Question 14
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In a constant volume calorimeter, 3.5 g of a gas (molar mass = 28 g mol-1) was burnt in excess oxygen at 298.0 K. The temperature of the calorimeter was found to increase from 298.0 K to 298.45 K due to oxidation of the gas. Given that the heat capacity of the calorimeter is 2.5 kJ K-1, the numerical value of the heat given out in kJ mol-1 is

[IIT JEE 2009]

Detailed Solution for Test: Heat Capacity - Question 14

Energy released by combustion of 3.5 g gas = 2.5×(298.45-298) kJ
Energy released by 1 mole of gas = 2.5×0.45/3.5/28 = 9 kJ mol-1

Test: Heat Capacity - Question 15
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Direction (Q. Nos. 15-16) This section contains a paragraph, wach describing theory, experiments, data etc. three Questions related to paragraph have been given.Each question have only one correct answer among the four given options (a),(b),(c),(d).

Boiling point of ethanol (C2H5OH) = 78.29°C
Specific heat of ethanol = 2.44 J-1K-1
Enthalpy of vaporisation = 855 Jg-1

 

Q. Energy required (in kJ) for the following change is
Detailed Solution for Test: Heat Capacity - Question 15

Q = ms∆T 
   = 1000(2.44×58.29) 
   = 997.23 kJ
As we have been asked till boiling point. But the compound is still in a liquid state. So mL is not given
 

Test: Heat Capacity - Question 16
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Boiling point of ethanol (C2H5OH) = 78.29°C
Specific heat of ethanol = 2.44 J-1K-1
Enthalpy of vaporisation = 855 Jg-1

 

Q. Energy required (in kJ) for the following change is
Detailed Solution for Test: Heat Capacity - Question 16

As liquid is already at boiling point initially and after giving heat it still is at boiling point. It means that only latent heat is given.
Q = mL = 1000×855 = 855 kJ

Test: Heat Capacity - Question 17
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Direction (Q. Nos. 17) Choice the correct combination of elements and column I and coloumn II  are given as option (a), (b), (c) and (d), out of which ONE option is correct.

Q. According to the classical equipartition of energy theory, the contributions to the molar heat capacity at constant volume are for each degree of translational freedom,  for each degree of rotational freedom and (R) for each degree of translational freedom. Match the species in Column I with the values of molar heat capacity (Cp or CV) in Column II and select answer from codes given below the table.

 
Detailed Solution for Test: Heat Capacity - Question 17

For monoatomic gas, CP = 5R/2
For diatomic gas, CP = 9R/2
For triatomic gas, CV = 6R and CP = CV+R = 7R

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