AgI exist in 2 forms α and β which are in equilibrium at 419.65 K at 1 atm pressure. For the change of α to β molar enthalpy of transition is 6.4KJ/mol while molar volume of transition is -2.2cm3 / mol. Find the pressure at which transition temperature will be 418.15K?

Explore Courses UPSC Exam UPSC Test Series Free Notes EduRev Infinity

Open App

Chemistry Exam > Chemistry Questions > AgI exist in 2 forms α and β which are in equ...

Join the Discussion on the App

AgI exist in 2 forms α and β which are in equilibrium at 419.65 K at 1 atm pressure. For the change of α to β molar enthalpy of transition is 6.4KJ/mol while molar volume of transition is -2.2cm3 / mol. Find the pressure at which transition temperature will be 418.15K?

Join for Free

Join for Free

View all answers Start learning for free

Explore Courses for Chemistry exam

Similar Chemistry Doubts

Calculate the enthalpy change (calmol–1) when 36 g of water is heated from 27°C to 37°C at 1 atm pressure. The molar heat capacity of water (18.1 cal K–1mol–1) remains constant in this temperature range: [rounded up to two decimal places] Correct answer is between '360.00,364.00'. Can you explain this answer?

View answer

2CaSO4(s)→ 2CaO(s) 2SO2(g) +O2(g) ΔH > 0Above equilibrium is established by taking some amount of CaSO4(s) in a closed container at 1600 K. Then which of the following may be correct option.

View answer

the enthalpy of vapourisationof h2ois 40.65 ki/mol,molar volume of liquid water is 0.01910^-2 m^2.mol^-1 and molar volume of steam is 30.19910^-3m^3.mol^-1 all at 100°c and 1 atm.calculate the rate of change in the following point of water at100°c with atmosphere pressure? Related: The Clausius Clapeyron Equation - Thermochemistry?

View answer

The change in enthalpy when 5 mole of liquid benzene transforms to the vapour state at its boilingtemperature(90°C) and at 1 bar pressure is(ΔSV = 87J K -mol) _____________________KJ.(Round off to two decimal places). Correct answer is between '157.80,158.00'. Can you explain this answer?

View answer

Enthalpy change for the reaction of 50 mL of ethylene with 50 mL of hydrogen gas at 1.5 atm pressure is -0.31 kJ/mol. What would be, then, the heat of reaction at constant volume (kJ) ?(answer upto four decimal places) Correct answer is between '-0.3028,-0.3020'. Can you explain this answer?

View answer

Share with a Friend

Answer this doubt

Question Description
AgI exist in 2 forms α and β which are in equilibrium at 419.65 K at 1 atm pressure. For the change of α to β molar enthalpy of transition is 6.4KJ/mol while molar volume of transition is -2.2cm3 / mol. Find the pressure at which transition temperature will be 418.15K? for Chemistry 2024 is part of Chemistry preparation. The Question and answers have been prepared according to the Chemistry exam syllabus. Information about AgI exist in 2 forms α and β which are in equilibrium at 419.65 K at 1 atm pressure. For the change of α to β molar enthalpy of transition is 6.4KJ/mol while molar volume of transition is -2.2cm3 / mol. Find the pressure at which transition temperature will be 418.15K? covers all topics & solutions for Chemistry 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for AgI exist in 2 forms α and β which are in equilibrium at 419.65 K at 1 atm pressure. For the change of α to β molar enthalpy of transition is 6.4KJ/mol while molar volume of transition is -2.2cm3 / mol. Find the pressure at which transition temperature will be 418.15K?.

Solutions for AgI exist in 2 forms α and β which are in equilibrium at 419.65 K at 1 atm pressure. For the change of α to β molar enthalpy of transition is 6.4KJ/mol while molar volume of transition is -2.2cm3 / mol. Find the pressure at which transition temperature will be 418.15K? in English & in Hindi are available as part of our courses for Chemistry. Download more important topics, notes, lectures and mock test series for Chemistry Exam by signing up for free.

Here you can find the meaning of AgI exist in 2 forms α and β which are in equilibrium at 419.65 K at 1 atm pressure. For the change of α to β molar enthalpy of transition is 6.4KJ/mol while molar volume of transition is -2.2cm3 / mol. Find the pressure at which transition temperature will be 418.15K? defined & explained in the simplest way possible. Besides giving the explanation of AgI exist in 2 forms α and β which are in equilibrium at 419.65 K at 1 atm pressure. For the change of α to β molar enthalpy of transition is 6.4KJ/mol while molar volume of transition is -2.2cm3 / mol. Find the pressure at which transition temperature will be 418.15K?, a detailed solution for AgI exist in 2 forms α and β which are in equilibrium at 419.65 K at 1 atm pressure. For the change of α to β molar enthalpy of transition is 6.4KJ/mol while molar volume of transition is -2.2cm3 / mol. Find the pressure at which transition temperature will be 418.15K? has been provided alongside types of AgI exist in 2 forms α and β which are in equilibrium at 419.65 K at 1 atm pressure. For the change of α to β molar enthalpy of transition is 6.4KJ/mol while molar volume of transition is -2.2cm3 / mol. Find the pressure at which transition temperature will be 418.15K? theory, EduRev gives you an ample number of questions to practice AgI exist in 2 forms α and β which are in equilibrium at 419.65 K at 1 atm pressure. For the change of α to β molar enthalpy of transition is 6.4KJ/mol while molar volume of transition is -2.2cm3 / mol. Find the pressure at which transition temperature will be 418.15K? tests, examples and also practice Chemistry tests.

Explore Courses for Chemistry exam