a) In this reaction, N2 and H2 are the reactants and NH3 is product.
This is exothermic reaction.
When heat is removed then forward reaction occurs. So rate of forward reaction increases.
b) As the N2 is reactant. We know with increasing the concentration of reactant, rate of the forward reaction increases.
so here rate of forward reaction increases.
c) In the forward reaction volume is decreased because 4 mole gas produce 2 mole gas(NH3).
so volume of container increases, the rate of forward reaction decreases.
pts) The synthesis of ammonia from nitrogen and hydrogen is exothermic N2(g) + 3H2(g) → 2NH3(g)...
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Question Ammonia is made from a rxn of nitrogen and hydrogen: N2(g)+3H2(g)--> 2NH3 a) What mass of the ammonia is made from 2000g of N2 and 1000 g of H2? b) What is the mass of the excess reactant?
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19)Ammonia is synthesized from nitrogen and hydrogen in the following reaction: N2(g)+3H2(g)2NH3(g) At 500 °C, the equilibrium constant for this reaction is 0.080. Given that (NHa] - 0.0596 M, [N2]- 0.600 M, and [H2] 0.420 M, find Q and predict how the reaction will proceed. a. Q 0.08, the reaction is at equilibrium b. Q 12.5, the reaction will move to the left c. Q 12.5, the reaction will move to the right d. Q 1.34, the reaction will move...
Armonía is manufactured using the following reaction: N2 + 3H2 ----- 2NH3 How much ammonia can be produced in the reaction of 2.04x10^-3 moles of nitrogen and 6.83x10^-3 moles of hydrogen? Ammonia is manufactured using the following reaction: N2 + 3H2 - 2NH3. How much ammonia can be produced in the reaction of 2.04 x 10 moles of nitrogen and 6.83 x 10 moles of hydrogen?