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States of Matter Practice Questions - DPP for NEET

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1. (a) From the graph we can see the correct order of pressures  p
1
 > p
3 
>
p
2
2. (b) Gases become cooler during Joule Thomson’s expansion only if they are
below a certain temperature known as inversion temperature (T
i
). The
inversion temperature is characteristic of each gas and is given by
,   where R is gas constant
Given a = 0.244 atm L
2
 mol
–2
b = 0.027 L mol
–1
R = 0.0821 L atm deg
–1
 mol
–1
? 
3. (d)
4. (d) Let the mass of methane and oxygen = m gm.
Mole fraction of O
2
= 
=  =  = 
Partial pressure of O
2
 = Total pressure × mole fraction of O
2
, = P × 
 = 
5. (c) The expression of root mean square speed is
Hence,
Page 2


1. (a) From the graph we can see the correct order of pressures  p
1
 > p
3 
>
p
2
2. (b) Gases become cooler during Joule Thomson’s expansion only if they are
below a certain temperature known as inversion temperature (T
i
). The
inversion temperature is characteristic of each gas and is given by
,   where R is gas constant
Given a = 0.244 atm L
2
 mol
–2
b = 0.027 L mol
–1
R = 0.0821 L atm deg
–1
 mol
–1
? 
3. (d)
4. (d) Let the mass of methane and oxygen = m gm.
Mole fraction of O
2
= 
=  =  = 
Partial pressure of O
2
 = Total pressure × mole fraction of O
2
, = P × 
 = 
5. (c) The expression of root mean square speed is
Hence,
6. (a) Given T = 27°C = 27 + 273 = 300 K
V = 10.0 L
Mass of He = 0.4 g
Mass of oxygen = 1.6 g
Mass of nitrogen = 1.4 g
n He = 0.4/4 = 0.1
n O
2
 = 1.6/32 = 0.05
n N
2
 = 1.4/28 = 0.05
n total = n He + n O
2
 + n N
2
 = 0.1 + 0.05 + 0.05 = 0.2
P =  atm
7. (b) Rate of diffusion ?
 Molecular mass of HCl > Molecular mass of NH
3
 HCl diffuses at slower rate and white ammonium chloride is
first formed near HCl bottle.
8. (b)    
Mean molar mass = 
= 
9. (a)
Page 3


1. (a) From the graph we can see the correct order of pressures  p
1
 > p
3 
>
p
2
2. (b) Gases become cooler during Joule Thomson’s expansion only if they are
below a certain temperature known as inversion temperature (T
i
). The
inversion temperature is characteristic of each gas and is given by
,   where R is gas constant
Given a = 0.244 atm L
2
 mol
–2
b = 0.027 L mol
–1
R = 0.0821 L atm deg
–1
 mol
–1
? 
3. (d)
4. (d) Let the mass of methane and oxygen = m gm.
Mole fraction of O
2
= 
=  =  = 
Partial pressure of O
2
 = Total pressure × mole fraction of O
2
, = P × 
 = 
5. (c) The expression of root mean square speed is
Hence,
6. (a) Given T = 27°C = 27 + 273 = 300 K
V = 10.0 L
Mass of He = 0.4 g
Mass of oxygen = 1.6 g
Mass of nitrogen = 1.4 g
n He = 0.4/4 = 0.1
n O
2
 = 1.6/32 = 0.05
n N
2
 = 1.4/28 = 0.05
n total = n He + n O
2
 + n N
2
 = 0.1 + 0.05 + 0.05 = 0.2
P =  atm
7. (b) Rate of diffusion ?
 Molecular mass of HCl > Molecular mass of NH
3
 HCl diffuses at slower rate and white ammonium chloride is
first formed near HCl bottle.
8. (b)    
Mean molar mass = 
= 
9. (a)
10. (c) According to Avogadro’s law "At same temperature and pressure, 
Volume ? no. of moles"
 = 
Q = =   = 16 : 1
: 2
11. (a) Given, 
According to Graham's law of diffusion for two different gases.
? x = 8
? Fraction of O
2
 = 1/8
12. (c) As temperature rises the most probable speed increases and the
fraction of molecules possessing most probable speed decreases.
13. (b) According to Boyle's law, PV = constant
?  log P + log V = constant
log P = – log V + constant
Hence, the plot of log P vs log V is straight line with negative slope.
14. (a)
Stoichoimetry ratio is 1 : 2
AT STP, P = 1 atm, T = 273 K, R = 0.0821
Page 4


1. (a) From the graph we can see the correct order of pressures  p
1
 > p
3 
>
p
2
2. (b) Gases become cooler during Joule Thomson’s expansion only if they are
below a certain temperature known as inversion temperature (T
i
). The
inversion temperature is characteristic of each gas and is given by
,   where R is gas constant
Given a = 0.244 atm L
2
 mol
–2
b = 0.027 L mol
–1
R = 0.0821 L atm deg
–1
 mol
–1
? 
3. (d)
4. (d) Let the mass of methane and oxygen = m gm.
Mole fraction of O
2
= 
=  =  = 
Partial pressure of O
2
 = Total pressure × mole fraction of O
2
, = P × 
 = 
5. (c) The expression of root mean square speed is
Hence,
6. (a) Given T = 27°C = 27 + 273 = 300 K
V = 10.0 L
Mass of He = 0.4 g
Mass of oxygen = 1.6 g
Mass of nitrogen = 1.4 g
n He = 0.4/4 = 0.1
n O
2
 = 1.6/32 = 0.05
n N
2
 = 1.4/28 = 0.05
n total = n He + n O
2
 + n N
2
 = 0.1 + 0.05 + 0.05 = 0.2
P =  atm
7. (b) Rate of diffusion ?
 Molecular mass of HCl > Molecular mass of NH
3
 HCl diffuses at slower rate and white ammonium chloride is
first formed near HCl bottle.
8. (b)    
Mean molar mass = 
= 
9. (a)
10. (c) According to Avogadro’s law "At same temperature and pressure, 
Volume ? no. of moles"
 = 
Q = =   = 16 : 1
: 2
11. (a) Given, 
According to Graham's law of diffusion for two different gases.
? x = 8
? Fraction of O
2
 = 1/8
12. (c) As temperature rises the most probable speed increases and the
fraction of molecules possessing most probable speed decreases.
13. (b) According to Boyle's law, PV = constant
?  log P + log V = constant
log P = – log V + constant
Hence, the plot of log P vs log V is straight line with negative slope.
14. (a)
Stoichoimetry ratio is 1 : 2
AT STP, P = 1 atm, T = 273 K, R = 0.0821
Initial moles of CO
2;
 n(CO
2
initial) 
= 0.022 mole
In final mixture no. of moles; n(CO
2
/CO mixture)
Increase in volume is by = 0.031 – 0.022
= 0.009 mole of gas
Final no. of moles of CO i.e. n
(CO final)
n
(CO final)
 = 2n
(CO2 initial)
 – n
(CO2 final)
= 2(0.022 – n
(CO2 final)
...(i)
n
(CO final)
 = 0.044 – 2n
(CO2 final)
...(ii)
? Now,  n
(CO final)
 + n
(CO final)
 = 0.031
n
(CO2 final)
 = 0.031 – n
(CO final)
...(ii)
Substituting (ii) in eq. (i)
n
(CO final)
 = 0.044 – 2[0.031 – n
(CO final)]
n
(CO final)
 = 0.044 – 0.062 + 2n
(CO final)
n
(CO final)
 = 0.018 mol. Volume of 
  = 0.40 Litre
and volume of CO
2
 = 0.7 litre – 0.4 litre
= 0.3 litre
?  CO
2 
= 300 mL, CO = 400 mL
15. (c) Most probable speed (C*) = 
Average Speed 
Page 5


1. (a) From the graph we can see the correct order of pressures  p
1
 > p
3 
>
p
2
2. (b) Gases become cooler during Joule Thomson’s expansion only if they are
below a certain temperature known as inversion temperature (T
i
). The
inversion temperature is characteristic of each gas and is given by
,   where R is gas constant
Given a = 0.244 atm L
2
 mol
–2
b = 0.027 L mol
–1
R = 0.0821 L atm deg
–1
 mol
–1
? 
3. (d)
4. (d) Let the mass of methane and oxygen = m gm.
Mole fraction of O
2
= 
=  =  = 
Partial pressure of O
2
 = Total pressure × mole fraction of O
2
, = P × 
 = 
5. (c) The expression of root mean square speed is
Hence,
6. (a) Given T = 27°C = 27 + 273 = 300 K
V = 10.0 L
Mass of He = 0.4 g
Mass of oxygen = 1.6 g
Mass of nitrogen = 1.4 g
n He = 0.4/4 = 0.1
n O
2
 = 1.6/32 = 0.05
n N
2
 = 1.4/28 = 0.05
n total = n He + n O
2
 + n N
2
 = 0.1 + 0.05 + 0.05 = 0.2
P =  atm
7. (b) Rate of diffusion ?
 Molecular mass of HCl > Molecular mass of NH
3
 HCl diffuses at slower rate and white ammonium chloride is
first formed near HCl bottle.
8. (b)    
Mean molar mass = 
= 
9. (a)
10. (c) According to Avogadro’s law "At same temperature and pressure, 
Volume ? no. of moles"
 = 
Q = =   = 16 : 1
: 2
11. (a) Given, 
According to Graham's law of diffusion for two different gases.
? x = 8
? Fraction of O
2
 = 1/8
12. (c) As temperature rises the most probable speed increases and the
fraction of molecules possessing most probable speed decreases.
13. (b) According to Boyle's law, PV = constant
?  log P + log V = constant
log P = – log V + constant
Hence, the plot of log P vs log V is straight line with negative slope.
14. (a)
Stoichoimetry ratio is 1 : 2
AT STP, P = 1 atm, T = 273 K, R = 0.0821
Initial moles of CO
2;
 n(CO
2
initial) 
= 0.022 mole
In final mixture no. of moles; n(CO
2
/CO mixture)
Increase in volume is by = 0.031 – 0.022
= 0.009 mole of gas
Final no. of moles of CO i.e. n
(CO final)
n
(CO final)
 = 2n
(CO2 initial)
 – n
(CO2 final)
= 2(0.022 – n
(CO2 final)
...(i)
n
(CO final)
 = 0.044 – 2n
(CO2 final)
...(ii)
? Now,  n
(CO final)
 + n
(CO final)
 = 0.031
n
(CO2 final)
 = 0.031 – n
(CO final)
...(ii)
Substituting (ii) in eq. (i)
n
(CO final)
 = 0.044 – 2[0.031 – n
(CO final)]
n
(CO final)
 = 0.044 – 0.062 + 2n
(CO final)
n
(CO final)
 = 0.018 mol. Volume of 
  = 0.40 Litre
and volume of CO
2
 = 0.7 litre – 0.4 litre
= 0.3 litre
?  CO
2 
= 300 mL, CO = 400 mL
15. (c) Most probable speed (C*) = 
Average Speed 
Root mean square velocity (C) =
16. (b) According to Graham’s Law Diffusion:
Since rate of diffusion =  ?    
or   
=  = 
 Mol. wt = 2 × V.D
? 
On calculating,
V
2
 = 14.1
17. (b) Compressibility factor 
(For one mole of real gas)
van der Waals equation 
At low pressure, volume is very large and hence correction term b can
be neglected in comparison to very large volume of V.
i.e. 
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FAQs on States of Matter Practice Questions - DPP for NEET

1. What is the definition of the term "NEET"?
Ans. NEET stands for National Eligibility cum Entrance Test. It is a national level medical entrance exam conducted in India for admission to undergraduate medical courses like MBBS, BDS, etc.
2. What is the purpose of the DPP for NEET?
Ans. The purpose of the DPP (Daily Practice Problems) for NEET is to provide students with a set of practice problems related to the topic of States of Matter. These problems help students in preparing for the NEET exam by giving them an opportunity to solve questions and improve their understanding of the subject.
3. How can the DPP for NEET help in exam preparation?
Ans. The DPP for NEET can help in exam preparation by providing students with daily practice problems related to the topic of States of Matter. By solving these problems, students can assess their knowledge and identify areas that require more attention. Regular practice with the DPP can improve their problem-solving skills and enhance their performance in the NEET exam.
4. Are the solutions provided in the DPP for NEET accurate?
Ans. Yes, the solutions provided in the DPP for NEET are accurate. They have been prepared by subject matter experts who have extensive knowledge and experience in the field. These solutions are designed to help students understand the concepts better and provide step-by-step explanations to ensure clarity.
5. Can the DPP for NEET be used as the sole study material for the exam?
Ans. While the DPP for NEET is a valuable resource for practice, it is recommended to use it in conjunction with other study materials. The DPP provides practice problems, but it is important to refer to textbooks, reference books, and other study materials for a comprehensive understanding of the subject. Using a combination of resources will help in better exam preparation.
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