The degree of dissociation (α) of a weak electrolyte, AxBy is related to van't Hoff factor (i) by the expression asked Oct 15, 2018 in Solutions by Sagarmatha ( 54.4k points) solutions The degree of dissociation (α) of a weak electrolyte, AxBy is related to van't Hoff factor (i) by the expression:1. α=x+y+1i-12.α=x+y-1i-13. Students (upto class 10+2) preparing for All Government Exams, CBSE Board Exam, ICSE Board Exam, State Board Exam, JEE (Mains+Advance) and NEET can ask questions from any subject and get quick answers by subject teachers/ experts/mentors/students. are solved by group of students and teacher of JEE, which is also the largest student
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The degree of dissociation (α) of a weak electrolyte ,A x B y is related to van't Hoff factor (i) by the expression. The degree of dissociation (α) of a weak electrolyte, AxBy is related to van't Hoff factor (i) by the expression: A-1, Acharya Nikatan, Mayur Vihar, Phase-1, Central Market, New Delhi-110091. over here on EduRev! soon. As a result, the diffusion coefficient of this gas increases x times. community of JEE. The degree of dissociation (α) of a weak electrolyte, AxBy is related to van’t Hoff factor (i) by the expression. The value of x is, In neutral or faintly alkaline solution, 8 moles of permanganate anion quantitatively, In neutral or faintly alkaline solution, 8 moles of permanganate anion quantitatively oxidize thiosulphate anions to produce X moles of a sulphur containing product. This discussion on The degree of dissociation (a) of a weak electrolyte, AxBy is related to van’t Hoff factor (i) by the expression [2011]a)b)c)d)Correct answer is option 'A'. Can you explain this answer? The degree of dissociation (α) of a weak electrolyte A x B y is related to van’t Hoff factor (i) by the expression Welcome to Sarthaks eConnect: A unique platform where students can interact with teachers/experts/students to get solutions to their queries. Answer. Density of this solution at 298 K is 2.0 g cm-3. EduRev is a knowledge-sharing community that depends on everyone being able to pitch in when they know something. Can you explain this answer? Calculate the emf of the cell in which the following reaction takes place: Ni (s) + 2Ag+ (0.002 M) Ni2+ (0.160 M) + 2Ag (s) Given that. | EduRev JEE Question is disucussed on EduRev Study Group by 182 JEE Students. The degree of dissociation (α) of a weak electrolyte, AxBy is related to van't Hoff factor (i) by the expression, The expression relating degree of dissociation of the weak electrolyte AxBy with its van’t Hoff factor is, A 0.6% aqueous solution of KCl (mol. of a weak electrolyte, AxBy is related to van’t Hoff factor (i) by the expression. Switch. A. At 298 K, molarity, The mole fraction of a solute in a solution is 0.1. Can you explain this answer? Flag. The ionisation will increase with dilution and hence the molar conductivity increases with dilution.Thus the conductivity is directly proportional to the degree of dissociation of electrolyte. The magnitude of X is, The number of geometric isomers possible for the complex [CoL2Cl2]-, The mole fraction of a solute in a solution is 0.1. See Attachment. How is degree of dissociation and degree of association are related with van’t Hoff factor? The degree of dissociation (a) of a weak electrolyte, A. The diffusion coefficient of an ideal gas is proportional to its mean free path and mean speed. Calculate the vant Hoff factor and degree of dissociation of. Switch; Flag; Bookmark; 5. The ratio of the molecular weights of the solute and, The degree of dissociation (α) of a weak electrolyte A, is related to van’t Hoff factor (i) by the expression, Important Questions CBSE Class 10 Science, Boiling Point Elevation By Non Volatile Solute, Depression Of Freezing Point By A Non – Volatile Solute, Abnormal Molecular Weight And Van't Hoff Factor. α=i-1x+y-1A) 1 is correctB) 2 is correctC) 3 is correctD) 4 is correct. Apart from being the largest JEE community, EduRev has the largest solved
Question bank for JEE. The second class of compounds, known as weak electrolytes, are those where ionisation is incomplete. The degree of dissociation (α) of a weak electrolyte ,A x B y is related to van't Hoff factor (i) by the expression. Answers of The degree of dissociation (a) of a weak electrolyte, AxBy is related to van’t Hoff factor (i) by the expression [2011]a)b)c)d)Correct answer is option 'A'. The degree of dissociation of a weak electrolyte, is related to van't Hoff factor (i) by the expression The absolute temperature of an ideal gas is increased 4 times and its pressure is increased 2 times. α=i-1x+y+14. Nov 05,2020 - The degree of dissociation (a) of a weak electrolyte, AxBy is related to van’t Hoff factor (i) by the expression [2011]a)b)c)d)Correct answer is option 'A'. Copyright © 2020 Entrancei. Bookmark. The Questions and
wt. A. 6 years ago. Can you explain this answer? At 298 K, molarity of this solution is the same as its molality. 665 Views. all rights reserved. What is Vant Hoff factor, how is it related with a. degree of dissociation b. degree of association, Classification of elements and periodicity in properties, General principles and process of Isolation of metals, S - block elements - alkali and alkaline earth metals, Purification and characteristics of organic compounds, Some basic principles of organic chemistry, Principles related to practical chemistry. agree to the. The degree of dissociation (?) is done on EduRev Study Group by JEE Students. Correct answer is option 'A'. The degree of dissociation (a) of a weak electrolyte, AxBy is related to van’t Hoff factor (i) by the expression [2011]a)b)c)d)Correct answer is option 'A'. = 74.5) freezes at – 0.2ºC. MCQs Of Solutions, Past Year Questions JEE Mains, Class 12, Chemistry, Oxygen Dissociation Curve - Digestion & Absorption.