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18 Nov 2019
The concentrations of reactants and products for a chemical reaction can be calculated If the equilibrium constant for the reaction are the starting concentrations of reactants and/or products are known Carbonyl fluoride, COF_2 is an important intermediate used in the production of containing compounds. For instance, it is used to make the refrigerant carbon CF_4 via the reaction 2COF_2(g) CO_2(g) + CF_4(g), K_c = 8.70 If only COF_2 is present initially at a concentration of 2.00 M, what concentration of COF_2 remains at equilibrium? Express the molar concentration numerically. Consider the reaction CO(g) + NH_3(g) NCOHN_2(g), K_c = 0.630 If a reaction vessel initially contains only CO and NH_3 at concentrations or 1.00 M and 2.00 M, respectively, .what will the concentration of HCONH_3 be at equilibrium? Express the molar concentration numerically to three significant figures.
The concentrations of reactants and products for a chemical reaction can be calculated If the equilibrium constant for the reaction are the starting concentrations of reactants and/or products are known Carbonyl fluoride, COF_2 is an important intermediate used in the production of containing compounds. For instance, it is used to make the refrigerant carbon CF_4 via the reaction 2COF_2(g) CO_2(g) + CF_4(g), K_c = 8.70 If only COF_2 is present initially at a concentration of 2.00 M, what concentration of COF_2 remains at equilibrium? Express the molar concentration numerically. Consider the reaction CO(g) + NH_3(g) NCOHN_2(g), K_c = 0.630 If a reaction vessel initially contains only CO and NH_3 at concentrations or 1.00 M and 2.00 M, respectively, .what will the concentration of HCONH_3 be at equilibrium? Express the molar concentration numerically to three significant figures.
Collen VonLv2
7 Feb 2019