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Paragraph 1 Thermal decomposition of gas...

Paragraph 1 Thermal decomposition of gaseous X2 to gaseous X at 298 K takes place according to the following equation : X2(g) = 2X(9) The standard reaction Gibbs energy, AG, of this reaction is positive. At the start of the reaction, there is one mole of X2 and no X. As the reaction proceeds, the number of moles of X formed is given by B. Thus. Bequilibrium is the number of moles of X formed at equilibrium. The reaction is carried out at a constant total pressure of 2 bar. Consider the gases to behave ideally. (Given : R=0.083 L bar K-1 mot') The equilibrium constant Kp for this reaction at 298 K, in terms of Bequilibrium , is (JEE(Advanced) 2016, 3/124) Pequilibrium 4Bequilibrium (A) 2-Bequilibrium 8Bequilibrium 4 - B (D) *Pequilibrium 2- Bequilibrium • Pequilibrium 4- Bequillibrium

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Thermal decomposition of gaseous X_(2) to gaseous X at 298K takes place according to the following equation: X(g)hArr2X(g) The standard reaction Gibbs energy Delta_(r)G^(@) , of this reaction is positive. At the start of the reaction, there is one mole of X_(2) and no X . As the reaction proceeds, the number of moles of X formed is given by beta . Thus beta_("equilibrium") is the number of moles of X formed at equilibrium. The reaction is carried out at a constant total pressure of 2 bar. Consider the gases to behave ideally. [Given, R=0.083L bar K^(-1) mol^(-1) ) The equilibrium constant K_(p) for this reaction at 298K , in terms of beta_("equilibrium") is

Thermal decomposition of gaseous X_(2) to gaseous X at 298K takes place according to the following equation: X(g)hArr2X(g) The standard reaction Gibbs energy Delta_(r)G^(@) , of this reaction is positive. At the start of the reaction, there is one mole of X_(2) and no X . As the reaction proceeds, the number of moles of X formed is given by beta . Thus beta_("equilibrium") is the number of moles of X formed at equilibrium. The reaction is carried out at a constant total pressure of 2 bar. Consider the gases to behave ideally. [Given, R=0.083L bar K^(-1) mol^(-1) ) The equilibrium constant K_(p) for this reaction at 298K , in terms of beta_("equilibrium") is

Thermal decomposition of gaseous X_(2) to gaseous X at 298K takes place according to the following equation: X(g)hArr2X(g) The standard reaction Gibbs energy Delta_(r)G^(@) , of this reaction is positive. At the start of the reaction, there is one mole of X_(2) and no X . As the reaction proceeds, the number of moles of X formed is given by beta . Thus beta_("equilibrium") is the number of moles of X formed at equilibrium. The reaction is carried out at a constant total pressure of 2 bar. Consider the gases to behave ideally. [Given, R=0.083L bar K^(-1) mol^(-1) ) The incorrect statement among the following for this reaction, is