Presentation is loading. Please wait.

Presentation is loading. Please wait.

ATOMIC NUMBER 1st IONISATION ENERGY / kJmol -1 Variation in 1st Ionisation Energy EXPLANATION Despite having a nuclear charge of only 1+, Hydrogen has.

Similar presentations


Presentation on theme: "ATOMIC NUMBER 1st IONISATION ENERGY / kJmol -1 Variation in 1st Ionisation Energy EXPLANATION Despite having a nuclear charge of only 1+, Hydrogen has."— Presentation transcript:

1 ATOMIC NUMBER 1st IONISATION ENERGY / kJmol -1 Variation in 1st Ionisation Energy EXPLANATION Despite having a nuclear charge of only 1+, Hydrogen has a relatively high 1st Ionisation Energy as its electron is closest to the nucleus and has no shielding. EXPLANATION Despite having a nuclear charge of only 1+, Hydrogen has a relatively high 1st Ionisation Energy as its electron is closest to the nucleus and has no shielding. HYDROGEN 1 1s

2 ATOMIC NUMBER 1st IONISATION ENERGY / kJmol -1 EXPLANATION Helium has a much higher value because of the extra proton in the nucleus. The additional charge provides a stronger attraction for the electrons making them harder to remove. EXPLANATION Helium has a much higher value because of the extra proton in the nucleus. The additional charge provides a stronger attraction for the electrons making them harder to remove. Variation in 1st Ionisation Energy HELIUM 2

3 1s 2s 1s ATOMIC NUMBER 1st IONISATION ENERGY / kJmol -1 EXPLANATION There is a substantial drop in the value for Lithium. This is because the extra electron has gone into an orbital in the next energy level. Despite the increased nuclear charge, the effective nuclear charge is less because of the shielding effect of filled inner 1s energy level. The 2s electron is also further away from the nucleus. It is held less strongly and needs less energy for removal. EXPLANATION There is a substantial drop in the value for Lithium. This is because the extra electron has gone into an orbital in the next energy level. Despite the increased nuclear charge, the effective nuclear charge is less because of the shielding effect of filled inner 1s energy level. The 2s electron is also further away from the nucleus. It is held less strongly and needs less energy for removal. Variation in 1st Ionisation Energy LITHIUM 3

4 1s 2s 1s ATOMIC NUMBER 1st IONISATION ENERGY / kJmol -1 EXPLANATION The value for Beryllium is higher than for Lithium due to the increased nuclear charge. There is no extra shielding. EXPLANATION The value for Beryllium is higher than for Lithium due to the increased nuclear charge. There is no extra shielding. Variation in 1st Ionisation Energy BERYLLIUM 4

5 1s 2s 2p 1s 2s 1s ATOMIC NUMBER 1st IONISATION ENERGY / kJmol -1 EXPLANATION DROP There is a DROP in the value for Boron. This is because the extra electron has gone into one of the 2p orbitals. The increased shielding makes the electron easier to remove It was evidence such as this that confirmed the existence of sub-shells. If there hadn’t been any sub-shell, the value would have been higher than that of Beryllium. EXPLANATION DROP There is a DROP in the value for Boron. This is because the extra electron has gone into one of the 2p orbitals. The increased shielding makes the electron easier to remove It was evidence such as this that confirmed the existence of sub-shells. If there hadn’t been any sub-shell, the value would have been higher than that of Beryllium. Variation in 1st Ionisation Energy BORON 5

6 1s 2s 2p 1s 2s 1s ATOMIC NUMBER 1st IONISATION ENERGY / kJmol -1 Variation in 1st Ionisation Energy EXPLANATION The value increases again for Carbon due to the increased nuclear charge. The extra electron does not pair up with the previous one in the same orbital but occupies another of the 2p orbitals. This gives a lower energy configuration because there is less repulsion between the negatively charged particles. This is known as Hund’s Rule. EXPLANATION The value increases again for Carbon due to the increased nuclear charge. The extra electron does not pair up with the previous one in the same orbital but occupies another of the 2p orbitals. This gives a lower energy configuration because there is less repulsion between the negatively charged particles. This is known as Hund’s Rule. CARBON 6

7 1s 2s 2p 1s 2s 1s ATOMIC NUMBER 1st IONISATION ENERGY / kJmol -1 Variation in 1st Ionisation Energy EXPLANATION The value increases again for Nitrogen due to the increased nuclear charge. As before, the extra electron goes into the vacant 2p orbital. There are now three unpaired electrons. EXPLANATION The value increases again for Nitrogen due to the increased nuclear charge. As before, the extra electron goes into the vacant 2p orbital. There are now three unpaired electrons. NITROGEN 7

8 1s 2s 2p 1s 2s 1s ATOMIC NUMBER 1st IONISATION ENERGY / kJmol -1 Variation in 1st Ionisation Energy EXPLANATION DROP There is a DROP in the value for Oxygen. The extra electron has paired up with one of the electrons already in one of the 2p orbitals. The repulsive force beteen the two paired-up electrons means that less energy is required to remove one of them. EXPLANATION DROP There is a DROP in the value for Oxygen. The extra electron has paired up with one of the electrons already in one of the 2p orbitals. The repulsive force beteen the two paired-up electrons means that less energy is required to remove one of them. OXYGEN 8

9 1s 2s 2p 1s 2s 1s ATOMIC NUMBER 1st IONISATION ENERGY / kJmol -1 Variation in 1st Ionisation Energy EXPLANATION The value increases again for Fluorine due to the increased nuclear charge. The 2p orbitals are almost full. EXPLANATION The value increases again for Fluorine due to the increased nuclear charge. The 2p orbitals are almost full. FLUORINE 9

10 1s 2s 2p 1s 2s 1s ATOMIC NUMBER 1st IONISATION ENERGY / kJmol -1 Variation in 1st Ionisation Energy EXPLANATION The value increases again for Neon due to the increased nuclear charge. The 2p orbitals are now full so the next electron in will have to go into the higher energy 3s orbital. EXPLANATION The value increases again for Neon due to the increased nuclear charge. The 2p orbitals are now full so the next electron in will have to go into the higher energy 3s orbital. NEON 10

11 1s 2s 2p 1s 2s 1s ATOMIC NUMBER 1st IONISATION ENERGY / kJmol -1 1s 2s 2p 3s Variation in 1st Ionisation Energy EXPLANATION There is a substantial drop in the value for Sodium. This is because the extra electron has gone into an orbital in the next energy level. Despite the increased nuclear charge, the effective nuclear charge is less because of the shielding effect of filled inner 1s, 2s and 2p energy levels. EXPLANATION There is a substantial drop in the value for Sodium. This is because the extra electron has gone into an orbital in the next energy level. Despite the increased nuclear charge, the effective nuclear charge is less because of the shielding effect of filled inner 1s, 2s and 2p energy levels. SODIUM 11

12 1s 2s 2p 1s 2s 1s ATOMIC NUMBER 1st IONISATION ENERGY / kJmol -1 1s 2s 2p 3s Variation in 1st Ionisation Energy EXPLANATION The value for Magnesium is higher than for Sodium due to the increased nuclear charge. There is no extra shielding. The trend is similar to that at the start of the 2nd period. EXPLANATION The value for Magnesium is higher than for Sodium due to the increased nuclear charge. There is no extra shielding. The trend is similar to that at the start of the 2nd period. MAGNESIUM 12

13 ELECTRONIC CONFIGURATION OF IONS Positive ions (cations) are formed by removing electrons from atoms Negative ions (anions) are formed by adding electrons to atoms Electrons are removed first from the highest occupied orbitals (EXC. transition metals) SODIUM Na1s 2 2s 2 2p 6 3s 1 1 electron removed from the 3s orbital Na + 1s 2 2s 2 2p 6 CHLORINECl1s 2 2s 2 2p 6 3s 2 3p 5 1 electron added to the 3p orbital Cl -  1s 2 2s 2 2p 6 3s 2 3p 6

14 FIRST ROW TRANSITION METALS Despite being of lower energy and being filled first, electrons in the 4s orbital are removed before any electrons in the 3d orbitals. TITANIUMTi1s 2 2s 2 2p 6 3s 2 3p 6 4s 2 3d 2 Ti + 1s 2 2s 2 2p 6 3s 2 3p 6 4s 1 3d 2 Ti 2+ 1s 2 2s 2 2p 6 3s 2 3p 6 3d 2 Ti 3+ 1s 2 2s 2 2p 6 3s 2 3p 6 3d 1 Ti 4+ 1s 2 2s 2 2p 6 3s 2 3p 6

15 Electronic configuration and the periodic table The elements in the s-block have their outer electron in an s sub shell. Similarly the elements in the p-, d- and f- blocks have their outer electrons in the p, d and f sub shells respectively


Download ppt "ATOMIC NUMBER 1st IONISATION ENERGY / kJmol -1 Variation in 1st Ionisation Energy EXPLANATION Despite having a nuclear charge of only 1+, Hydrogen has."

Similar presentations


Ads by Google