Fe>Fe2+>Fe3+
Chemistry, 15.04.2020 01:49 purplefish53
Explain the following variations in atomic or ionic radii:
Fe>Fe2+>Fe3+
1. The 4s valence electrons in Fe are on average [ Select ] ["closer", "farther"] from the nucleus than the 3d electrons, so Fe is larger than Fe2+.
2. Because there are five 3d orbitals, in Fe2+ at least [ Select ] ["three orbitals", "two orbitals", "five orbitals", "four orbitals", "one orbital"] must contain a pair of electrons.
3. Removing one more electron from Fe2+ to form Fe3+ significantly [ Select ] ["reduces", "increases"] repulsion, increasing the nuclear charge experienced by each of the other d electrons and decreasing the size of the ion.
Answers: 1
Another question on Chemistry
Chemistry, 22.06.2019 13:30
Astudent is trying to create a table that compares hypotheses, theories, and laws. hypothesis theory law do scientific researchers formulate it? yes yes yes does it explain why things happen? yes yes no yes yes yes is it used to make predictions? no yes yes which of the following questions would most likely fill the blank in the table? is it an intelligent guess? is it newly formulated? is it based on observations? has it been proved?
Answers: 1
Chemistry, 22.06.2019 14:30
Need ! asap will mark 10 pts using the room temperature line (orange line) and your periodic table, make lists that identify the state of matter (gas, liquid, or solid) in which each element you plotted exists at room temperature. explain your answers
Answers: 1
Chemistry, 22.06.2019 20:30
Identify the correct mole ratio for each substance. sodium chloride (nacl) na: cl = 1: ammonium nitrate (nhno) h: o = 4:
Answers: 1
Chemistry, 22.06.2019 21:40
A5 mole sample of liquid acetone is converted to a gas at 75.0°c. if 628 j are required to raise the temperature of the liquid to the boiling point, 15.600 kj are required to evaporate the liquid, and 712 j are required to raise the final temperature to 75.0°c, what is the total energy required for the conversion?
Answers: 3
You know the right answer?
Explain the following variations in atomic or ionic radii:
Fe>Fe2+>Fe3+
Fe>Fe2+>Fe3+
Questions
Mathematics, 09.02.2021 03:20
Computers and Technology, 09.02.2021 03:20
Mathematics, 09.02.2021 03:20
Mathematics, 09.02.2021 03:20
Mathematics, 09.02.2021 03:20
Social Studies, 09.02.2021 03:20
