The following reaction has an equilibrium constant Kc equal to 3.59 at 900°C. CH4( g)+2H2 S( g)⇔CS2( g)+4H2( g)CH4( g)+2H2 S( g)⇔CS2( g)+4H2( g) At the following concentrations: [CH4CH4] = 1.26 M, [H2SH2S] = 1.32 M, [CS2CS2] = 1.43 M and [H2H2] = 1.12 M, decide whether the reaction mixture is at equilibrium. If it is not, decide which direction the reaction should go. The following reaction has an equilibrium constant Kc equal to 3.59 at 900°C. CH4( g)+2H2 S( g)⇔CS2( g)+4H2( g)CH4( g)+2H2 S( g)⇔CS2( g)+4H2( g) At the following concentrations: [CH4CH4] = 1.26 M, [H2SH2S] = 1.32 M, [CS2CS2] = 1.43 M and [H2H2] = 1.12 M, decide whether the reaction mixture is at equilibrium. If it is not, decide which direction the reaction should go. The reaction is at equilibrium The reaction will shift to the right towards the products The reaction will shift to the left towards the reactants
The following reaction has an equilibrium constant Kc equal to 3.59 at 900°C.
CH4( g)+2H2 S( g)⇔CS2( g)+4H2( g)CH4( g)+2H2 S( g)⇔CS2( g)+4H2( g)
At the following concentrations: [CH4CH4] = 1.26 M, [H2SH2S] = 1.32 M, [CS2CS2] = 1.43 M and [H2H2] = 1.12 M, decide whether the reaction mixture is at equilibrium. If it is not, decide which direction the reaction should go.
The following reaction has an equilibrium constant Kc equal to 3.59 at 900°C.
CH4( g)+2H2 S( g)⇔CS2( g)+4H2( g)CH4( g)+2H2 S( g)⇔CS2( g)+4H2( g)
At the following concentrations: [CH4CH4] = 1.26 M, [H2SH2S] = 1.32 M, [CS2CS2] = 1.43 M and [H2H2] = 1.12 M, decide whether the reaction mixture is at equilibrium. If it is not, decide which direction the reaction should go.
The reaction is at equilibrium
The reaction will shift to the right towards the products
The reaction will shift to the left towards the reactants
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