The correct answer is b. Since the equation is balance we can establish that A and B react in the ration 1:4. So in order for the reactants to produce more product there must exist a limiting reactant that gets used up once the ratio of reactants is 1:4 or greater than this value. The first pair of reactants gives us a 1:1 ratio, which means
[tex]a.mol A \times \frac{mol C}{mol A} = mol\ C\\\\mol B \times \frac{mol C}{4mol B} = 0.25 mol\ C[/tex].
Here B is the limiting reactant and it get used up before we can go above our treshold ratio.
[tex]b. mol A \times \frac{mol C}{mol A} = mol C\\\\4mol B \times \frac{mol C}{4mol\ B} = mol\ C[/tex]
The reactants react in the ratio 1:4 which gives 1 mol of C
[tex]c. 3mol A \times \frac{mol C}{mol A} = 3mol\ C\\\\4mol B \times \frac{mol C}{4mol B} = 1 mol C[/tex]
The 3:4 ratio makes B be the limiting reactant which means even though we have 3 moles of A, after 1 mol A has reacted all the 4 moles of B will be used up.
[tex]d, 4mol A \times \frac{molC }{mol A} = 4mol\ C\\\\mol\ B \times \frac{mol C}{ mol B} = 1 mol C[/tex]
Here there is not enough moles of B to get more product.
