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The system shown in the figure is in equilibrium, where A and B are isomeric liquids and form an ideal solution at T.K. standard vapour pressure of A and B are PA and PB respectively at TK. We collect the vapour of A and B in two container of volume V, first container is maintained at 2TK and second container is maintained at 3TK.2At thetemperature greater than TK, both A and B exist in only gaseous form. Total vapour pressure of the system at TK is given as PT = PAXA+ PBXBWhere XA and XB are the mole fraction of A and B in liquid a mixture.In container (1) We assume that collected gases behave ideally at 2TK and there can take place isomerisation reaction in which A converted into B by first order kinetics Reaction is given asIn Container (II) At the given temperature 3T/2, A and B are ideal in nature and non mixing in nature. A small pin hole is madecontainer. We can determine the initial rate of effusion of both gases in vacuum by the expressionWhere P = pressure difference between system and surrounding K = positive constant M = Molecular weight of the gas.Q.If vapour is collected in container of volume 8.21 lit maintained at 75 K then ratio of initial rate of effusion of Gas A and B is given as:a)2 : 1b)1 : 2c)4:1d)1 : 4Correct answer is option 'A'. Can you explain this answer? for JEE 2024 is part of JEE preparation. The Question and answers have been prepared
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the JEE exam syllabus. Information about The system shown in the figure is in equilibrium, where A and B are isomeric liquids and form an ideal solution at T.K. standard vapour pressure of A and B are PA and PB respectively at TK. We collect the vapour of A and B in two container of volume V, first container is maintained at 2TK and second container is maintained at 3TK.2At thetemperature greater than TK, both A and B exist in only gaseous form. Total vapour pressure of the system at TK is given as PT = PAXA+ PBXBWhere XA and XB are the mole fraction of A and B in liquid a mixture.In container (1) We assume that collected gases behave ideally at 2TK and there can take place isomerisation reaction in which A converted into B by first order kinetics Reaction is given asIn Container (II) At the given temperature 3T/2, A and B are ideal in nature and non mixing in nature. A small pin hole is madecontainer. We can determine the initial rate of effusion of both gases in vacuum by the expressionWhere P = pressure difference between system and surrounding K = positive constant M = Molecular weight of the gas.Q.If vapour is collected in container of volume 8.21 lit maintained at 75 K then ratio of initial rate of effusion of Gas A and B is given as:a)2 : 1b)1 : 2c)4:1d)1 : 4Correct answer is option 'A'. Can you explain this answer? covers all topics & solutions for JEE 2024 Exam.
Find important definitions, questions, meanings, examples, exercises and tests below for The system shown in the figure is in equilibrium, where A and B are isomeric liquids and form an ideal solution at T.K. standard vapour pressure of A and B are PA and PB respectively at TK. We collect the vapour of A and B in two container of volume V, first container is maintained at 2TK and second container is maintained at 3TK.2At thetemperature greater than TK, both A and B exist in only gaseous form. Total vapour pressure of the system at TK is given as PT = PAXA+ PBXBWhere XA and XB are the mole fraction of A and B in liquid a mixture.In container (1) We assume that collected gases behave ideally at 2TK and there can take place isomerisation reaction in which A converted into B by first order kinetics Reaction is given asIn Container (II) At the given temperature 3T/2, A and B are ideal in nature and non mixing in nature. A small pin hole is madecontainer. We can determine the initial rate of effusion of both gases in vacuum by the expressionWhere P = pressure difference between system and surrounding K = positive constant M = Molecular weight of the gas.Q.If vapour is collected in container of volume 8.21 lit maintained at 75 K then ratio of initial rate of effusion of Gas A and B is given as:a)2 : 1b)1 : 2c)4:1d)1 : 4Correct answer is option 'A'. Can you explain this answer?.
Solutions for The system shown in the figure is in equilibrium, where A and B are isomeric liquids and form an ideal solution at T.K. standard vapour pressure of A and B are PA and PB respectively at TK. We collect the vapour of A and B in two container of volume V, first container is maintained at 2TK and second container is maintained at 3TK.2At thetemperature greater than TK, both A and B exist in only gaseous form. Total vapour pressure of the system at TK is given as PT = PAXA+ PBXBWhere XA and XB are the mole fraction of A and B in liquid a mixture.In container (1) We assume that collected gases behave ideally at 2TK and there can take place isomerisation reaction in which A converted into B by first order kinetics Reaction is given asIn Container (II) At the given temperature 3T/2, A and B are ideal in nature and non mixing in nature. A small pin hole is madecontainer. We can determine the initial rate of effusion of both gases in vacuum by the expressionWhere P = pressure difference between system and surrounding K = positive constant M = Molecular weight of the gas.Q.If vapour is collected in container of volume 8.21 lit maintained at 75 K then ratio of initial rate of effusion of Gas A and B is given as:a)2 : 1b)1 : 2c)4:1d)1 : 4Correct answer is option 'A'. Can you explain this answer? in English & in Hindi are available as part of our courses for JEE.
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Here you can find the meaning of The system shown in the figure is in equilibrium, where A and B are isomeric liquids and form an ideal solution at T.K. standard vapour pressure of A and B are PA and PB respectively at TK. We collect the vapour of A and B in two container of volume V, first container is maintained at 2TK and second container is maintained at 3TK.2At thetemperature greater than TK, both A and B exist in only gaseous form. Total vapour pressure of the system at TK is given as PT = PAXA+ PBXBWhere XA and XB are the mole fraction of A and B in liquid a mixture.In container (1) We assume that collected gases behave ideally at 2TK and there can take place isomerisation reaction in which A converted into B by first order kinetics Reaction is given asIn Container (II) At the given temperature 3T/2, A and B are ideal in nature and non mixing in nature. A small pin hole is madecontainer. We can determine the initial rate of effusion of both gases in vacuum by the expressionWhere P = pressure difference between system and surrounding K = positive constant M = Molecular weight of the gas.Q.If vapour is collected in container of volume 8.21 lit maintained at 75 K then ratio of initial rate of effusion of Gas A and B is given as:a)2 : 1b)1 : 2c)4:1d)1 : 4Correct answer is option 'A'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of
The system shown in the figure is in equilibrium, where A and B are isomeric liquids and form an ideal solution at T.K. standard vapour pressure of A and B are PA and PB respectively at TK. We collect the vapour of A and B in two container of volume V, first container is maintained at 2TK and second container is maintained at 3TK.2At thetemperature greater than TK, both A and B exist in only gaseous form. Total vapour pressure of the system at TK is given as PT = PAXA+ PBXBWhere XA and XB are the mole fraction of A and B in liquid a mixture.In container (1) We assume that collected gases behave ideally at 2TK and there can take place isomerisation reaction in which A converted into B by first order kinetics Reaction is given asIn Container (II) At the given temperature 3T/2, A and B are ideal in nature and non mixing in nature. A small pin hole is madecontainer. We can determine the initial rate of effusion of both gases in vacuum by the expressionWhere P = pressure difference between system and surrounding K = positive constant M = Molecular weight of the gas.Q.If vapour is collected in container of volume 8.21 lit maintained at 75 K then ratio of initial rate of effusion of Gas A and B is given as:a)2 : 1b)1 : 2c)4:1d)1 : 4Correct answer is option 'A'. Can you explain this answer?, a detailed solution for The system shown in the figure is in equilibrium, where A and B are isomeric liquids and form an ideal solution at T.K. standard vapour pressure of A and B are PA and PB respectively at TK. We collect the vapour of A and B in two container of volume V, first container is maintained at 2TK and second container is maintained at 3TK.2At thetemperature greater than TK, both A and B exist in only gaseous form. Total vapour pressure of the system at TK is given as PT = PAXA+ PBXBWhere XA and XB are the mole fraction of A and B in liquid a mixture.In container (1) We assume that collected gases behave ideally at 2TK and there can take place isomerisation reaction in which A converted into B by first order kinetics Reaction is given asIn Container (II) At the given temperature 3T/2, A and B are ideal in nature and non mixing in nature. A small pin hole is madecontainer. We can determine the initial rate of effusion of both gases in vacuum by the expressionWhere P = pressure difference between system and surrounding K = positive constant M = Molecular weight of the gas.Q.If vapour is collected in container of volume 8.21 lit maintained at 75 K then ratio of initial rate of effusion of Gas A and B is given as:a)2 : 1b)1 : 2c)4:1d)1 : 4Correct answer is option 'A'. Can you explain this answer? has been provided alongside types of The system shown in the figure is in equilibrium, where A and B are isomeric liquids and form an ideal solution at T.K. standard vapour pressure of A and B are PA and PB respectively at TK. We collect the vapour of A and B in two container of volume V, first container is maintained at 2TK and second container is maintained at 3TK.2At thetemperature greater than TK, both A and B exist in only gaseous form. Total vapour pressure of the system at TK is given as PT = PAXA+ PBXBWhere XA and XB are the mole fraction of A and B in liquid a mixture.In container (1) We assume that collected gases behave ideally at 2TK and there can take place isomerisation reaction in which A converted into B by first order kinetics Reaction is given asIn Container (II) At the given temperature 3T/2, A and B are ideal in nature and non mixing in nature. A small pin hole is madecontainer. We can determine the initial rate of effusion of both gases in vacuum by the expressionWhere P = pressure difference between system and surrounding K = positive constant M = Molecular weight of the gas.Q.If vapour is collected in container of volume 8.21 lit maintained at 75 K then ratio of initial rate of effusion of Gas A and B is given as:a)2 : 1b)1 : 2c)4:1d)1 : 4Correct answer is option 'A'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice The system shown in the figure is in equilibrium, where A and B are isomeric liquids and form an ideal solution at T.K. standard vapour pressure of A and B are PA and PB respectively at TK. We collect the vapour of A and B in two container of volume V, first container is maintained at 2TK and second container is maintained at 3TK.2At thetemperature greater than TK, both A and B exist in only gaseous form. Total vapour pressure of the system at TK is given as PT = PAXA+ PBXBWhere XA and XB are the mole fraction of A and B in liquid a mixture.In container (1) We assume that collected gases behave ideally at 2TK and there can take place isomerisation reaction in which A converted into B by first order kinetics Reaction is given asIn Container (II) At the given temperature 3T/2, A and B are ideal in nature and non mixing in nature. A small pin hole is madecontainer. We can determine the initial rate of effusion of both gases in vacuum by the expressionWhere P = pressure difference between system and surrounding K = positive constant M = Molecular weight of the gas.Q.If vapour is collected in container of volume 8.21 lit maintained at 75 K then ratio of initial rate of effusion of Gas A and B is given as:a)2 : 1b)1 : 2c)4:1d)1 : 4Correct answer is option 'A'. Can you explain this answer? tests, examples and also practice JEE tests.