Answer: filling the d orbitals.
Explanation:
This is why they are know as d block elements. Their electrons are filling the d block orbitals.
Solution:
Using Ideal Gas law:
P1 = 1.45 atm
V1 = 5.15 L
P2 = ?
V2 = 3.43 L
Using Ideal Gas Law, PV = nRT:
Now, the number of moles (n) is the same independent of pressure and distance, so let's say that the temperature is stable since there is no details on the issue. As a consequence,
P1V1 = nRT = P2V2
P1V1 = P2V2
Solve for P2 and you're going to get 2.03 atm. It makes sense as you decrease the amount of the gas by compressing it, which implies that you raise the heat.
2) P = 1.5 atm
T = 301 K
n = 0.785 moles
PV = nRT
V = nRT/P
R = 0.0821 (L*atm)/(mol * K)
Therefore,
V = (0.785 * 0.0821 * 301)/1.5 = 19.4 L
If you convert 56g of carbon to moles you will get 4.66 moles
Answer: the following are essential factors to be considered when choosing a solvent for crystallization
1. The crystallization solvent should not dissolve the substance to be purified at room temperature, but it should dissolve it well at the solvent’s boiling point
2. The solvent should dissolve soluble impurities well at room temperature.
3. The solvent should not dissolve insoluble impurities even at the solvent’s boiling
point.
4. The solvent must not react with the substance to be purified .
K^+ + I^- -> KI (s)
Because kcl, NaCl & naI are aq so they're split apart & KI is a solid so it stays together, then you just cross out the similar ions.