When we mix MgSO4 with water we end up with a system which is not just water. I think the assumption is that the mixture "behaves like water" so we can use the formula q=n*c_p*(T2-T1) where both n and c_p are for water only as if the entire system was made of water. Is this correct? Or this is always the case when we look at the water system only? Water doesn't react so 100g of water is always 100g of water with dissolved ions which is the other system (1.4g), so the formula for q_water is always applicable even if the general final system is a solution of 101.4g of H2O, Mg^2+ and So4^2-? And because the cup is adiabatic q_water = -q_reaction where q_reaction is the real thing we are interested in. One more question: when we derived that dH = dq @ const p, we assumed that the process was reversible, so dw cancels with p*dV, as p_ext = p. Can we assume that for this case? I guess not: the reaction is "spontaneous" and we need work to get back to the original system (get back to 1.4g of solid MgSo4(s)).