Want this question answered?
If the only reactant is a binary compound, the products are most likely to be the two elements composing the compound.
a} Is very high.
the answer is D. AS most likely would be positive because a gas has a greater entropy than a solid.
You are most likely referring to ClF (with a lowercase L). This compound contains chlorine and fluorine.
Because the boiling point of the compound is relatively low, the compound is likely to be in the form of individual molecules.
If the only reactant is a binary compound, the products are most likely to be the two elements composing the compound.
The products will be the components of this binary compound.
This depends on the compound: an oxide and carbon dioxide, water and carbon dioxide, another oxide etc.
a} Is very high.
When calculating the theoretical yield of a product within a reaction, the idea is to convert mass reactant --> mass product; in other words, "how many grams of product X will N grams reactant A and N grams reactant B yield (create)?" Whichever mass is the lowest is considered the theoretical yield (in other words, the reactant that produces the least amount of product).__A + __B --> __Xmass reactant A => mass product X (mass A: mass X)mass reactant B => mass product X (mass B: mass X)In order to calculate the theoretical yield, you need to convert the mass of reactant A to the mass of product X AND the mass of reactant B to the mass of product X.1. Multiply the mass of the reactant by the number of molecules (or moles) X and by the molar mass of X.2. Divide the above by the molar mass of reactant (which is multiplied by the number of molecules [or moles] of reactant).Do this for each reactant involved.- FormulaMass reactant * # molecules (moles) product X1 * molar mass product X--------- # molecules (moles) reactant * molar mass reactant= Mass Product X- Conversion FactorMass reactant * 1 mol reactant * # molecules product X * molar mass product X-------------- molar mass reactant - # molecules reactant --- 1 mol product X= Mass Product X1the # molecules is obtained from the balanced equation. For clarification, I stated # molecules in place of mol; however, on practice problems and in textbook tutorials on how to solve problems in regards to stoichiometry, it is likely it will say mol or moles instead of # molecules.Ex. Ca(NO3)2 + 2NaF --> CaF2 + 2NaNO3What is the theoretical yield of CaF2 (product X) when 43.5g Ca(NO3)2 (reactant A) react with 39.5g NaF (reactant B)?43.5g Ca(NO3)2 * 1 mol Ca(NO3)2 * 1 molecule1 CaF2 * 78.08g CaF2-------------- 164.1g Ca(NO3)2 ----- 1 molecule1 Ca(NO3)2 - 1 mol NaF= 22.3g CaF236.5g NaF * 1 mol NaF * 1 molecule1 CaF2 * 78.08g CaF2------------ 41.99g NaF --- 2 molecules1 NaF --- 1 mol CaF2= 36.7g CaF2The theoretical yield of CaF2 is 22.3g, as it is the lowest amount of product created. In this case, the limiting reagent (the reactant that produced the least product) is Ca(NO3)2 and the reagent in excess is NaF."A chain is only as strong as its weakest link".
the answer is D. AS most likely would be positive because a gas has a greater entropy than a solid.
with both proper energy and proper oreantation
It depends on how and where the reaction takes place. Aluminium chloride is unstable in the prescence of water and reacts to give a variety of hydroxy-chlorides or hydroxide, or hydrated complex salts. With no water present, there is likely to be a complex salt formed.
A non polar compound would be least likely to dissolve in water.
Likely does not form a compound.
It could mean anything, depending on how you interpret it. But the most likely interpretation is that this is a binary number. If so, it is the binary representation of the base-10 number 170,784.
an enzyme