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Blank periodic table divided into zones/sections. Match each zone the corresponding general electron configuration ns? (n-Z18 (n-Id np atche whlch zone? Izom (n-21t...

Question

Blank periodic table divided into zones/sections. Match each zone the corresponding general electron configuration ns? (n-Z18 (n-Id np atche whlch zone? Izom (n-21t (n-IX maichewhich Tone (20461,)ns? (n.Il np matches which zon"(ront0? (n IK matche$ ,hleh zon0?onensz (n-?)" matches vnlcn*0ueiUrone/Joncone Ia

blank periodic table divided into zones/sections. Match each zone the corresponding general electron configuration ns? (n-Z18 (n-Id np atche whlch zone? Izom (n-21t (n-IX maichewhich Tone (20461,) ns? (n.Il np matches which zon" (ront 0? (n IK matche$ ,hleh zon0? one nsz (n-?)" matches vnlcn*0uei Urone/ Jonc one Ia



Answers

Refer to the periodic table and write the predicted electron configuration for each of the following elements: (a) B (b) Ti (c) Na (d) O (e) Ge (f) Ba (g) Pd (h) $\mathrm{Kr}$

So here we have an outline of the periodic table and we're just adding in some electron configurations and shells. So what we have here is and equals one and equals two and equals three and equals four and equals five and equals six and unequal seven. Where N is the principal quantum number Here, and also equal six And an equal seven. Okay, so we can change the colour of our pen here and add in some values. So we have oneness to us three s. 4 s. five s six S 7 s. So we've looked at our S block next week and look at the D. So what we have is three. d 45 and 60. Now, moving into our P. We have to pee three p. 4 p. five p. Six P. And so lastly, we can look at our planting IEDs and actinides which make up the four F. And the five F elements.

Chapter three problems, he says, use a periodic table to determine which element corresponds to each elect chocolate, the correction. So first was briefly go with the periodic table. All right, Everything that's located in the first two columns is you ask. Block was located and Collins thirteen to eighteen or three a from eight. A people was located here is deep. And then down here we have our f block. We we're not going to refer to that at this point in time that this would be your F block. So the first question is asking us about eh gives us a noble gas configuration first. Then there's for us too. Greedy ten and then four pieces. We're gonna figure out exactly what elements this is referring to a periodic table. So we look at this very table games are gone. To begin with, we're going to start, and then we move into period for as wanted us to ready. One, two, three, four, five, six, seven, eight, nine, ten. And then forty six. One, two, three, four, five, six. And people are that gives us krypton. Is that so? You may have noticed that will move into the deep lock fest is straining even though it's a period for forty, you know, in fact so that's where we'LL be again. We get our noble gas configuration which was all gone giving us the shorthand notations truck configuration we have for us too And greedy Tio So we'LL start back again with are very good people Then we have for us to period for that one as two and then three D too Fall in here I want you to end up with titanium is advancing next elements that were given He danced with Krypton We have fabulous tio forty two on a fall, Pete. Now begin right here with Krypton on the periodic table you go to the fifth one. That's one that's two forty ten, which was affairs the entire block and five p two gives us a one to ten is our answer. That's the map, Please. We have kryptonite again. We're looking at five to beginning of Krypton period. Fire as one, and it's too strong tea. And that's that. Listers demonstrated how to use a period table electron configuration to identify elements

When writing the electron configuration for elements found in the periodic table. It's helpful to know the order in which the electrons are placed with into the sub levels of each element. The order is one S, two S, two, P three, S, three, P four, S, three D, four, p five, s four D, five, p six, S four, F, five D, six, P seven S. And then each of these superscripts correspond to the number of electrons that are in each of these particular sub levels. For example, in the two P sub level, there are a maximum of six electrons that can be placed there. You'll notice a pattern. It's the S. First and there's only one S and then there's a in the second energy level, there's a SNP in the third energy level, there's an S. A P and a D. But the four S. Comes before the three D. And then we've got in the fourth energy level, we've got S. P. D, and F. And then again, you'll notice that there's some disruption in the sequence three D becomes comes before four P, five S becomes comes before 40 and then five P. And success comes before four F. So there are lots of ways to know this order. One is to use the periodic table and another is to just memorize the order so to determine the electron configuration for each of these elements, all we need to do is count up the number of electrons and then include in this order as many sub levels as needed to contain all of the electrons. So lithium has three electrons. So that means two of them will be in the one S and then one of them will be in the to us. Mhm florian has nine electrons. So we need one too, 34 56789 So we'll go all the way to two P. Five. So we get nine Mhm and then magnesium has 12. So we'll go 1234 56789 10 11 12 of the electron configuration. For magnesium phosphorus has 15 electrons. So we'll go 1234 56789 10, 11, 12, 13, 14 15. So we'll stop at three P. 33 P. Can contain a total of six electrons but we only need it to occupy three because we only have 15 electrons, calcium has 20 electrons. So we'll go 1234 56789 10, 11, 12, 13, 14, 15, 16, 17, 18, 1920. Well go all the way to Forest too. And then manganese has 25 electrons. So I'll plug in all 25 and we'll have to go all the way up to three D. Five. Three D. Can hold a total of 10, but we only need to hold it five and we've got gallium with 31 electrons. So we'll go 123456789 10, 11, 12, 13, 14, 15, 16, 17, 18, 1920. And then 30 and then one more for 31 than the electron configuration for rubidium with 37 electrons of all the way up to four P one, that would be 31. So if we go four P six, then that's 36 and we'll do one more 51 for rubidium. One thing you'll notice if you use this as a periodic table for a reference. The location of let's look at the very last one, rubidium, rubidium is found here in this location right here. And you'll notice that it's last electron is in the five S sub level. If we look at something like manganese, mn, uh, manganese is in this location here, and you'll notice that it's last electron is in the three D orbit, all three D 3 to 5, for example.

To determine the electron configuration. Using core notation, we first need to determine the electron configuration and then identify the noble gas core. The electron configuration can be determined using the periodic table, as explained in previous problems and in this textbook or using the order shown here and simply summing up our electrons to the total number of electrons that each element has, tungsten has 74 electrons. So we're just going to continue until we get to 74 and we get to 74 when we reach five D four and then from one S 2 to 5 P six zen encore. So we'll have zen encore success to four F 14, 5 D four and bismuth with 83 electrons. We'll continue until we get to 83 which ends at five P three. And again all the way up to five P six is the zen encore. So it's zen encore success to four of 14, 5 D 10, 63. And then we've got Rayden which has 88 electrons are, sorry, radium which has 88 electrons. So 88 goes up all the way to seven S. Two. But the raid on core goes from one s to all the way up to 66. So the core electron configuration for radium is Radan core seven S two, and then the next one is a C with 89 electrons. So we'll go all the way up to 89. This is a bacterium which ends at five F one and then we still have the raid on Core all the way up to six P six. So it'll be straight encore seven S to five F one.


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