Answer:
We need 2 * 10^-2 grams (=0.02 grams) KOH
Explanation:
Step 1: Data given
Mass of solution = 2000.0 grams
Solution = 10.0 ppm
Step 2: Calculate mass KOH needed
A solution's concentration in parts per million tells you the number of grams of solute present for every 10^6 grams of the solution.
In this case, the target solution must have a concentration of
10.0 ppm
, what means that it must contain 10.0 g of KOH( the solute), for every 10^6 grams of the solution
This means that the mass of KOH needed to make this solution is equal to
2000 grams * 10 grams KOH/ 10^6 grams solution = 0.02 = 2 *10^-2 grams
So, if you dissolve 2 *10^-2 grams of KOH in enough water to get a total mass of the solution to 2000.0 g
, you will have a 10.0-ppm KOH solution.
Answer: Among the listed substances is the molecular compound.
Explanation:
A chemical compound formed by the chemical combination of two or more non-metals is called a molecular compound or covalent compound.
For example, Xe and Cl are non-metals. The compound formed by them is which is a molecular compound.
A molecular compound is formed by sharing of atoms between the combining atoms.
Whereas NaF, and CaO are all ionic compounds as they are formed by chemical combination of a metal and a non-metal.
Thus, we can conclude that among the listed substances is the molecular compound.
The answer is A
trust me i know
Actually, the ionic equation for this is a reversible
equation since codeine is a weak base. Any weak base or weak acids do not
completely dissociate which makes them a reversible process. The ionic equation
for this case is:
<span>C18H21O3N + H3O+ </span><=>
C18H21O3NH+ + H2O