low solubility.
Yes, between reactive chemicals there is likely to be a reaction which will lead to precipitation if all the reactants and possible products are aqueous. The reactants, although aqueous, could fail to react if they are endothermic.
mass of a product produced from known mass pf reactants
You didn't show a reaction. The way you would know is by studying/memorizing or looking up the SOLUBILITY RULES.
The reaction will speed up.
An endothermic reaction is one that consumes heat.
no reaction
Input: reactants --> [ They react ] --> Output: products = what you get out of it
lockport dolostone
NaNO3+CaCl2->NaCl+Ca(NO3)2
Na2CO3 + Ca
Yes, between reactive chemicals there is likely to be a reaction which will lead to precipitation if all the reactants and possible products are aqueous. The reactants, although aqueous, could fail to react if they are endothermic.
2Br^-(aq)-->Br2(l)+2e
NaHSO3 + KIO3 => I2 + NaI + K2SO4 + H2O
Enzymes are thought to function primarily by stabilizing the transition state of the reaction. By binding the transition state more tightly than either the substrates or the products, the enzyme lowers the energy barrier of the reaction. Thus a transition state analog will bind more tightly to the enzyme than either the substrates or the products, preventing them from binding to the enzyme and reacting.
Chemical equilibrium occurs when the rate of the forward reaction is equal to the rate of the reverse reaction. Take this example:2NO2(g) ↔N2O4(g)At this point of the reaction the rate of N2O4 produced from NO2 is the same as the rate of NO2 produced from N2O4. The key aspect to keep in mind is that the amounts (of moles) of products and reactants at equilibrium is not always 50%/50%. It is usually not.Finding the amounts of products and reactants present during a reaction can be found using Q. Q is known as the reaction quotient. Q can be found like so:Q=[products]/[reactants]reaction quotient =concentrations of products (M) / concentrations of reactantsQ is used to find this ratio at a certain point in time during a reaction (not atequlilibrium)Most likely, you will be given Keq, the equilibrium constant, for a reaction. The value tells you the concentrations of products/reactants at equilibrium. Comparing Q and Keqwill tell you whether a reaction is at equilibrium.Not to get off topic, the answer is that equilibrium does not mean that the reaction mixture has 50% reactants and 50% products. Equilibrium means that the rate of the forward reaction equals the rate of the reverse reaction.
Barium is a more active metal than aluminium. In fact, the lower elements in the activity series gains electrons from the higher elements, which are also called as displacement reactions. The final products of this reaction would be barium sulfide and aluminium metal.
mass of a product produced from known mass pf reactants