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hello this is Dr Hanah oil and this is
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about the periodic table so we're going
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to be talking about the information that
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we can get from a periodic table so um
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we know that uh during any quiz or any
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exam uh in IG you will be provided with
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a copy of this periodic table um the
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periodic table has
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elements so everything in here is
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elements and they are arranged according
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to atomic number remember that you will
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have a key like this that tells you that
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what you have in there is the atomic
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symbol in this periodic table the one up
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is the atomic mass and the one down is
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the proton number but you should know
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that in different periodic tables this
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arrangement could change so sometimes
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the atomic number is the one down and
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sometimes the atomic number is the one
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up so you need to know that the atomic
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number is always the smaller number so
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if I look at lithium lithium has seven
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and three the three is the atomic number
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so that is the number of protons the
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seven is the mass number and that is
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protons plus neutrons
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so the periodic table arranges elements
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according to atomic number so we have
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hydrogen atomic number one and then
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helium 2 and then lithium 3 berium 4
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Boron 5 6 7 8 and so on so these are
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arranged according to atomic
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number okay looking at the periodic
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table you also need to realize which
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ones are metals and which ones are
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non-metals so in our syllabus the one on
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the left is uh Metals groups one two and
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three and everything in between the ones
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on the right are non-metals groups 4 5 6
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7 and zero in between between metals and
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nonmetals actually there is some
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exceptions but we do not uh talk about
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this
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in this syllabus so looking at the
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periodic table you should know that we
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arranged them in vertical columns called
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groups so going from up to down that's a
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group so I have group one lithium sodium
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potassium ridium cesium and so on group
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two group uh three group seven group
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zero so each of these are called groups
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now the horizontal rows are called
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periods so we have a period remember the
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first period includes hydrogen and
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helium that's our period one and then
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lithium is in Period two please do not
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make a mistake usually they count
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lithium and they forget that there is a
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period before that well the first period
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is hydrogen and helium so it's better to
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count the periods from the right the
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second period is lithium berum Boron and
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so on the third period and so on okay so
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we said the periodic table arranges
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elements in order of increasing atomic
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number so we have seven horizontal rows
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they're called periods and we have eight
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vertical columns and these are called
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groups and there are some in between uh
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which we'll be talking about okay so if
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you look at the group number so sodium
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for example is in group one magnesium
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group two and so on if I know the number
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of the group what does that tell me it
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tells me the number of electrons in the
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outer shell of the atom so for example
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sodium is in group one we talked about
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Distributing electrons sodium has 11
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electrons when you distribute them the
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outermost shell has one electron so this
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is in group one magnesium has in its
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outer shell two electrons group two so
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if we say aluminium is in group three it
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has three electrons in it aom shell and
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so on even without Distributing the
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electrons you can tell how many
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electrons in the aom Shell of the atom
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simply by looking up the number of the
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group so so chlorine for example is in
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group seven it has seven electrons in
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its outer shell and so
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on so what about the number of the
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period the number of the period
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indicates the number of energy levels
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containing electrons so if I look at
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lithium sodium potassium lithium is in
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Period two if you distribute it three
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electrons it has electrons in two energy
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levels sodium is in Period three it has
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three energy levels potassium is in
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period four it has four energy levels so
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let's take a look at this question it
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says the diagram shows part of the
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periodic table which element is
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correctly matched with its electronic
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structure well let's take a look where
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is a a if you look at it a is in group
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one so it should have one electrons out
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of the shell but it's in Period what
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it's in Period two so actually it should
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have only two energy levels so a is
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wrong what about B B is in group five so
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the last energy level should have five
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not four so that is wrong what about C
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now C is in group two so the last energy
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level should have two which is correct
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and it is in Period three so it should
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have a total of three energy levels so
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that one is correct if you look at d d
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is in group zero so it should end with
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eight that's correct but it is in Period
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three so it should actually have three
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energy
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levels okay you should know that all
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elements in the same group have similar
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chemical properties all we say they
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behave similarly or they do the same
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kinds of chemical
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reactions this is because they have the
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same number of electrons in outer shell
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so what determines the chemical
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properties of elements is the number of
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electrons in outer shell so for example
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everything in group one has one electron
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out on a shell when we talk about group
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one we're going to say they all have
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similar Properties Group Two all have
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similar properties because they all have
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two electrons in their outer shell and
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so on group zero will act similarly
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because they all have the same number of
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electrons in outer shell or they
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actually group zero all have full outer
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shell helium remember helium has two
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electrons in its outer shell and that is
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full that's why we put it in group zero
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because the first energy level takes two
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the others have eight electrons in their
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a shell so all of them have a full outer
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shell okay let's take a look at the
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different groups in the periodic table
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we said metals are on the left
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non-metals are on the right group one
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are called alkal metal so if he says
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choose an alkaly metal it's anything in
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group
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one the ones in the middle are called
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transition metals that's where you find
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transition metals group seven are called
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hogen so if he says choose a hallogen it
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is in group seven and group eight or
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group zero are called noble
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gases okay let's take a look at this
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question in the outline of the periodic
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table below some elements are shown as
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numbers which two numbers are
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metals in the same period first of all
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where are metals metals are the ones on
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the left so three five and six are
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metals the others are nonmetals now
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which ones are metals in the same period
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period is the horizontal one so the ones
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in the same period are five and
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six which element is classified as
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non-metal where there are the
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nonmetals if you look for these in the
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periodic table calcium is in group two
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chlorine group seven chromium is a
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transition metal and copper is a
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transition metal so which of these is
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nonmetals the one on the right so clue
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let's take them one at a time so group
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one we said are called alkaly Metals so
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these include lithium sodium potassium
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ruidum iium cesium you will find that at
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the end of the group there's something
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called
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francium please ignore it completely
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because it has different characteristics
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from the rest of the group so we do not
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really talk about it it has one
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electrons out on a shell that's why they
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put it in group one but it is slightly
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different from the others so let's just
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ignore France so we're looking at
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lithium sodium potassium rubidium cesium
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you should know all of them are in group
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one so they all have one electron the
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aom shell so if he asks me um why do
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they all have same properties chemical
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properties that is because they all have
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one electron in their a shell they are
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very reactive metals so if we're going
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to
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compare uh group one with any other
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metal the one in group one is more
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reactive and please remember that group
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one is very reactive and that is why
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when we store it we store it under oil
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so if he says that sodium for example in
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the lab has to be stored under oil this
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is because it is very reactive and if it
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is exposed to the air it will react with
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the oxygen and the water vapor in the
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air so we need to store it under oil we
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also say that group one are soft metals
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so actually the metals in group one you
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can cut them with a knife they are soft
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Metals okay you should know which one is
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more reactive going down reactivity
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increases so the one down is more
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reactive than the one up so in that list
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cesium is the most reactive metal in the
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periodic
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table so let's take a look at them going
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down down the group the one down is most
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reactive so if I look at lithium in
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water if I put a little piece of lithium
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in water sodium in water potassium in
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water you will find that lithium in
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water all of them in water give hydrogen
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gas so lithium gives a little bit of
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bubbles sodium will give a lot of
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bubbles that may catch fire potassium
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almost explodes very violent reaction
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with water so as we go down the one down
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is more reactive it is also a denser
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metal so density increases also as we go
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down but you have to remember that
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melting
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point is higher up the one up has higher
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melting point than the one down so
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melting point as we go down decreases
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reactivity and density increase
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es so let's look at this group one
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elements lithium and potassium are
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tested which element has the higher
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melting point and which element reacts
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more vigorously with water we said
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melting point which one is higher the
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one up so lithium would have higher
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melting point what about reactivity well
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we said the one down is more reactive so
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potassium would be more reactive than
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lithium do we understand
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that okay let's take a look at this
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which statement is correct for the
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element of proton number
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19 so of course I go to the periodic
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table I look which one has proton number
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that means the smaller number is
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19 so that's potassium in group one so
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which of these applies to potassium in
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group one he says it's a gas
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group one are metals they're all solids
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it's a hard metal we said group one are
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soft it's a nonmetal no it's a metal
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it's a soft metal that is highly
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reactive with water that is
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correct okay the table shows some
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properties of the group one Metals so
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he's giving me melting point hardness
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reaction with water what are the
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properties of rubidium so if I'm looking
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at melting point what's happening to the
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melting
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point going down it's decreasing so
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rubidium should have a melting point
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below 63 So my answer is a or
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b moderately soft soft very soft so
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rubidium would be very soft steady
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effervescence vigorous eff very vigorous
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reacts
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explosively with water
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so as we go down reactivity increases
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hardness it becomes softer and the
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melting point becomes
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lower transition metals we said
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transition metals are the ones in the
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middle of the periodic
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table they have a very hard substance so
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if we're talking about physical
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properties and please notice is the
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question about physical properties or
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chemical properties so if he's saying
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something about physical properties of
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transition metals they're very hard very
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high density very high melting point so
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if I'm comparing something in transition
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with something for example in group one
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I should say that the transition metal
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is
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harder higher density higher melting
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point and so on what about if we're
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talking about chem IAL properties well
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transition metals they form colored
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compounds that means when they react
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their compounds are colored they act as
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catalysts and they may have more than
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one oxidation state you know what's a
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catalyst a catalyst is a substance that
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speeds up a
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reaction and they have more than one
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oxidation state of veency veency is the
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number of electrons that they need to
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lose or gain in order to have a full
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outer shell all the others have a fixed
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veency but the ones in transition metals
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can have more than one veency and we'll
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be talking about that later in another
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chapter but let's now concentrate on
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physical properties of transition maal
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again be careful is he asking for
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physical or chemical because the usual
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mistake is he asks for physical and you
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give him chemical so if if we're
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comparing physical properties of a
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transition metal with a group one so
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transition metal like iron for example
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remember that all metals have this kind
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of shiny silvery appearance uh group one
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something like sodium now what is the
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difference in their physical properties
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you should realize that the one that is
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transition is very hard very high
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density
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very high melting point while the one in
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group one is soft lower density lower
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melting point so these are physical what
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about chemical the transition metal the
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first thing you should know is they form
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colored compounds so as a metal it is
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silvery gray in color but when it forms
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a compound so iron sulfate
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chromium chloride any compound of a
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transition metal is usually colored
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while the compound of any other group is
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not colored so as a solid it is white so
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if I say sodium
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chloride what is the appearance of
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sodium chloride it's a white solid
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pottassium
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bromide is a white solid what if it is a
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solution as a solution also doesn't have
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color so we say it is a
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colorless
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solution what other chemical properties
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we said transition metals act as
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catalysts while group one or any other
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metal that's not transition would not
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act as a catalyst transition metals have
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more than one oxidation state group one
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has a specific oxidation state it has a
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specific veency we said anything in
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group one has one electrons out of a
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shell so in order to have a full outer
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shell it needs to lose that electron so
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we say its veency is
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one transition can have different
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valences okay so if we look at
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transition metals we
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said All Metals their appearance as a
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metal is a
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gray uh silvery
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solid except copper we said copper is
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redish brown and gold is yellow any
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other metal looks like
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silver as a metal but when they form
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compounds all of these will form colored
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compounds
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so the table gives information about
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four elements which element is
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transition well let's take a look would
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a transition metal have good electrical
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conductivity or not of course this is a
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metal and you should know that all
00:20:09
metals conduct electricity so my answer
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is a or
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b what about density what did we say
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about transition metals they have high
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density melting point high melting point
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so this is probably the transition MTH
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an element melts at a very high
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temperature has a very high density
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forms a green chloride that's a colored
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compound so where do you think that
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element is of course high density high
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melting point colored compounds then it
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is a transition
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matter which element is used as a
00:20:54
catalyst again which one is used as a
00:20:56
catalyst we said the one that is
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transition okay group seven group seven
00:21:02
are called halogens they are in group
00:21:05
seven Florine chlorine bromine iodine
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and atine these are halogens they're in
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group seven so they have seven electrons
00:21:15
in their aous shell they are very
00:21:18
reactive non metals so group one and two
00:21:23
are very reactive metals group seven are
00:21:27
very re active non-metals now which of
00:21:30
them is more reactive remember we said
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in group one the one down is more
00:21:36
reactive but in group seven the one up
00:21:39
is more reactive so
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Florine is the most reactive non
00:21:48
M
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okay okay then you need to know the
00:21:57
appearance of of
00:21:59
halogens you have to know Florine is a
00:22:04
yellow gas so if he saying what is the
00:22:06
color it's yellow what is the state at
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room temperature it's a gas what about
00:22:14
chlorine color green or we say sometimes
00:22:18
yellowish green but you have to mention
00:22:21
Green State chlorine is a gas at room
00:22:26
temperature what what about brine
00:22:29
bromine its color is redish brown or
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sometimes we say
00:22:35
orange it state at room temperature is a
00:22:38
liquid and please remember bromine is
00:22:42
the only liquid nonmetal all non-metals
00:22:47
are either solids or gases except
00:22:50
bromine it is the only liquid
00:22:54
nonm iodine is a gray solid atin is a
00:22:59
black solid so notice that if we're
00:23:02
talking about change of state Going Down
00:23:06
group seven they change from gas gas
00:23:10
liquid solid if we're saying what is the
00:23:14
change in color going down of course the
00:23:18
color here gets
00:23:21
darker now iodine is
00:23:25
unique as a solid it is gray so if he
00:23:28
says the appearance of iodine solid it's
00:23:31
great but when we dissolve it in
00:23:34
solution it becomes a reddish brown
00:23:37
solution so this is iodine solution and
00:23:40
this is used in biology to test for
00:23:43
starch so remember that iodine dissolved
00:23:46
in water or iodine solution is reddish
00:23:49
brown now this is something that
00:23:51
sublimes do you remember the meaning of
00:23:54
sublimation so if I heat the solid it
00:23:57
becom comes a gas and it forms a gas
00:24:01
that has a purple color or a violet
00:24:04
color so iodine as a solid it's gray in
00:24:08
solution it's reddish brown and when it
00:24:11
forms Vapors it forms violet or purple
00:24:17
Vapors so you need to know changing
00:24:21
color changing state which one is most
00:24:24
reactive we said the one up is most
00:24:26
reactive so fluid
00:24:28
is most reactive chlorine is more
00:24:31
reactive than bromine and so on now
00:24:33
which one has higher melting point of
00:24:36
course if we're going gas gas liquid
00:24:38
solid so the one down has higher melting
00:24:42
point higher density darker color please
00:24:48
remember all of
00:24:49
this so we said the one up is more
00:24:52
reactive than the one down and the more
00:24:55
reactive this places the less re
00:24:57
reactive from its salt so if I have
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chlorine plus potassium bromite now
00:25:04
which one is more reactive if I look at
00:25:06
the periodic table chlorine is above
00:25:09
bromine so chlorine is more reactive
00:25:13
than bromine and we said The more
00:25:15
reactive one can displace the less
00:25:18
reactive one displace it means it pushes
00:25:22
it out and sits in its place so chlorine
00:25:25
displaces bromine so in instead of
00:25:28
having potassium bromide I'm going to
00:25:31
have potassium chloride plus what I have
00:25:35
displaced it so now it is bromine and
00:25:39
you should realize that Pro uh chlorine
00:25:42
gas is a green gas potassium bromide as
00:25:45
a solution we said this is what this is
00:25:48
a compound of group one so it's
00:25:50
colorless potassium bromide solution is
00:25:53
a colorless Solution please remember
00:25:56
something with no no color as a solution
00:26:00
it's called colorless as a solid it's
00:26:03
white so pottassium bromide is a
00:26:06
colorless solution but if we pass
00:26:08
chlorine gas through it then the bromine
00:26:12
is displaced and now we have bromine in
00:26:14
solution what was the color of bromine
00:26:17
solution so if I'm starting with
00:26:19
colorless potassium bromide I pass
00:26:22
chlorine gas through it that will
00:26:25
displace the bromine I will end up with
00:26:27
an orange
00:26:29
solution what if I'm reacting chlorine
00:26:33
with pottassium iodide so which one is
00:26:36
more reactive the chlorine is more
00:26:39
reactive than the iodine so the chlorine
00:26:42
will displace the iodine so potassium
00:26:45
iodide is a colorless solution when I
00:26:49
pass chlorine gas through it it
00:26:51
displaces the iodine and that means now
00:26:54
I have iodine in solution iodine in
00:26:57
solution is is reddish brown what if I
00:27:01
react iodine with potassium bromide now
00:27:05
which one is more reactive the bromine
00:27:07
is more reactive so it will not be
00:27:09
displaced by iodine so if he says why I
00:27:12
don't have a reaction here this is
00:27:15
because iodine is less reactive than
00:27:18
bromine so it will not displace
00:27:23
it okay this question says the teacher
00:27:25
does each experiment in a fume the table
00:27:28
shows the observation so he has bromine
00:27:32
with iron what he's doing is his uh um
00:27:36
burning the iron in bromine now the iron
00:27:40
wool glows brightly in bromine that
00:27:43
means you have a good reaction uh
00:27:47
chlorine with iron glows very brightly
00:27:51
iodine with iron glows dimly we can use
00:27:55
this to arrange the reactivity of the
00:27:58
three halogens of course the one that
00:28:00
reacts more uh strongly is the more
00:28:04
reactive so which one reacted more
00:28:06
strongly chlorine gave uh glows very
00:28:11
brightly so it is the most reactive
00:28:14
iodine glows dimly so this is the least
00:28:19
reative element X is below iodine so
00:28:23
we're talking about something below
00:28:25
iodine which row shows the physical
00:28:28
state of element X well if I'm talking
00:28:31
about something below iodine then we
00:28:34
know that iodine is a solid so anything
00:28:37
below it would also be a solid now
00:28:40
anything below iodine would it be more
00:28:42
reactive or less reactive you should
00:28:44
know that in group 71 down is less
00:28:48
reactive keep all of these in mind what
00:28:51
is the color of gaseous chlorine and
00:28:54
solid sodium chloride what was the color
00:28:58
of
00:28:59
chlorine as a gas we said chlorine gas
00:29:03
is yellow green what about sodium
00:29:07
chloride
00:29:08
solid again we said sodium chloride
00:29:11
solid is a compound of group one and we
00:29:15
said compounds of group one will they
00:29:18
have a color no group one does not form
00:29:21
colored compounds so the sodium chloride
00:29:24
is a white Sal
00:29:28
Florine is at the top of group seven
00:29:31
which row shows the properties of
00:29:33
Florine what was the color of Florine
00:29:36
you should remember that Florine is
00:29:39
yellow what was its state a gas will it
00:29:44
react with potassium iodide yes because
00:29:47
Florine is more reactive than
00:29:50
iodine
00:29:52
okay this is a
00:29:55
question uh a student mixes is the
00:29:57
following pairs of solutions so he has
00:30:00
bromine solution and potassium chloride
00:30:03
solution bromine solution and potassium
00:30:05
iodide solution explain how the student
00:30:09
can use the results of these experiments
00:30:12
to show the order of reactivity of the
00:30:15
three
00:30:16
halogens uh bromine chlorine and iodine
00:30:19
include observations this is a question
00:30:22
for six marks so please be careful so
00:30:25
he's given you bromine with potassium
00:30:28
chloride solution and potassium iodide
00:30:32
solution how can I use it to determine
00:30:34
which of these is more reactive well if
00:30:37
I use the first pair so bromine solution
00:30:40
we know bromine solution originally is
00:30:43
orange I added to the potassium chloride
00:30:46
solution that is colorless now you
00:30:48
should realize that bromine is less
00:30:53
reactive than chlorine so there will be
00:30:56
no reaction
00:31:01
but when you add bromine solution to the
00:31:04
potassium chloride then the solution now
00:31:06
has the color of the bromine so the
00:31:08
solution remains orange and this
00:31:11
indicates that bromine is less reactive
00:31:14
than chlorine and cannot displace it
00:31:18
what about the second pair in the second
00:31:20
pair is adding bromine solution and
00:31:23
potassium iodide so add bromine solution
00:31:27
to potassium iodide again potassium
00:31:30
iodide is colorless the solution would
00:31:32
turn brown because bromine is more
00:31:36
reactive than iodine so it displaces it
00:31:39
so now the solution has iodine in it and
00:31:42
that is
00:31:44
brown so from that he's saying deduce
00:31:47
the order of reactivity you should
00:31:49
realize that from that the order of
00:31:51
reactivity is chlorine more reactive
00:31:55
than bromine more reactive than and
00:31:59
IUD what about group zero group zero are
00:32:02
noble G gases so they are all have full
00:32:08
outer shell they are all what we call
00:32:12
monatomic gases that means they are
00:32:16
individual atoms standing alone they are
00:32:19
unreactive remember that the word inert
00:32:22
means unreactive now why are they
00:32:25
unreactive because they have a full
00:32:28
outer shell of electrons so helium
00:32:32
helium does not have eight but it has
00:32:35
two in the first shell two in the first
00:32:38
shell means that is a complete shell
00:32:41
because the first shell takes only two
00:32:44
so that is why it is a noble gas and we
00:32:48
put it with the rest of the noble gases
00:32:50
in group
00:32:51
zero now the others have eight electrons
00:32:55
in their outer shell so they are
00:32:59
unreactive because they have full outer
00:33:02
shell of electrons what do we use them
00:33:06
for you should realize helium is used
00:33:09
for filling balloons and if he asks me
00:33:12
why we say because it is
00:33:15
unreactive okay the helium is heavier
00:33:20
than
00:33:21
hydrogen please remember helium is
00:33:24
heavier than hydrogen but we we don't
00:33:27
use hydrogen or we prefer not to use
00:33:30
hydrogen because hydrogen is explosive
00:33:33
or it may burn while helium is
00:33:36
unreactive so we use it to fill balloons
00:33:39
because it is unreactive what do we use
00:33:42
argon for Argon is used for filling
00:33:45
light bulbs so inside the light bulb all
00:33:48
of this is filled with argon so that the
00:33:51
filament inside does not react neon is
00:33:55
used for fluorescent lights so if he the
00:34:01
question says the diagram shows the
00:34:03
positions of some elements in part of
00:34:05
the periodic table how many elements are
00:34:08
noble gases so which of these are noble
00:34:11
gases of course the helium and the orgon
00:34:14
are noble gases so only two of them are
00:34:18
noble gases what about this one the
00:34:21
photograph shows an electric light bulb
00:34:23
and you should realize that the light
00:34:25
bulb is made up of a filament that is
00:34:28
made of
00:34:29
tungsten now what happens is when you uh
00:34:33
connect electric electric current to the
00:34:36
bulb the filament starts to become very
00:34:39
very hot until it
00:34:42
glows so if we're asking why is it made
00:34:46
of tungsten we would say if you look at
00:34:49
the periodic table tungsten is a uh
00:34:52
transition metal that has a very high
00:34:55
melting point so we need to make it out
00:34:58
of tungsten so it doesn't melt easily so
00:35:00
tungsten is a transition metal with very
00:35:03
high melting
00:35:04
point but also why do we fill the bulb
00:35:08
with argon and not with air for example
00:35:11
so the question says the filament
00:35:14
becomes very hot when the light bulb is
00:35:16
switched on so just why argon is a more
00:35:20
suitable gas than air to use in the
00:35:23
light bulb of course this is because our
00:35:27
is unreactive so it will not react with
00:35:29
the filament it will not allow it to
00:35:31
burn why is it unreactive because it has
00:35:34
a full outer shell of electrons while if
00:35:37
I put air around it then the oxygen in
00:35:40
the air would cause the filament to burn
00:35:43
so the bulb will go off very
00:35:47
quickly an element does not conduct
00:35:51
electricity it exists as diatomic
00:35:55
molecules in which a area of the
00:35:57
periodic table is the element to be
00:36:00
found does not conduct electricity means
00:36:03
it's a nonmetal So my answer is C or D
00:36:07
but which ones did we say are diatomic
00:36:10
and which ones are monatomic remember D
00:36:14
are noble gases we said they are
00:36:16
monatomic that means each molecule is
00:36:18
made up of just one atom the atoms uh
00:36:22
stand individually but in C C is the
00:36:26
hogen the halogens you should know are
00:36:29
diatomic molecules each molecule is made
00:36:33
up of two atoms so I need two chlorines
00:36:36
together so when I write chlorine I
00:36:38
write it cl2 it is a diatomic molecule
00:36:43
the diagram shows a section of the
00:36:44
periodic table which element is
00:36:46
described below he's saying a colorless
00:36:50
unreactive gas that is denser than air
00:36:54
which of these is a colorless
00:36:57
unreactive gas of course that would be
00:37:00
the noble gas a or D but he wants the
00:37:03
one that is denser than air a is
00:37:08
helium and it has only a mass of four so
00:37:11
the one denser than air would be the one
00:37:13
down so that is the one indicated by
00:37:17
D helium is a noble gas which statement
00:37:21
is correct so which of these is correct
00:37:24
he's saying a helium atom has eight
00:37:27
electrons in its outer
00:37:29
shell no we said it doesn't have eight
00:37:32
it has only two but then that first
00:37:35
energy level is full with two electrons
00:37:39
so that is why we say helium has a full
00:37:41
outer shell so it has a full outer shell
00:37:44
but it has two in the first energy level
00:37:46
doesn't have eight helium exists as
00:37:50
diatomic no we said double gases are
00:37:54
monatomic molecules or one atom each
00:37:58
helium is used as an inert atmosphere in
00:38:03
lamps which one did we say we use in
00:38:06
lamps we said we use orgon in lamps we
00:38:10
helium we use for balloons there are no
00:38:14
naturally occurring chemical compounds
00:38:16
of helium yes we said helium has a full
00:38:19
outer shell so it would not react to
00:38:22
form compounds so that is our answer
00:38:27
what about this one if we have a
00:38:28
periodic table like this and he says
00:38:31
which of these is a metal that reacts
00:38:35
violently with water so he's looking for
00:38:38
a very reactive metal of course the
00:38:41
metals are the ones on the left and the
00:38:44
one that is more reactive is the one in
00:38:46
group
00:38:47
one which of these is a noble gas of
00:38:50
course a noble gas is the one that is in
00:38:54
group zero on the right so so that is a
00:38:58
which one is a group two metal where is
00:39:01
group two that is e a hogen which one is
00:39:05
a hogen the one in group seven so that
00:39:08
is
00:39:09
C sometimes he will give you something
00:39:12
like this with the electron distribution
00:39:15
and he wants you to decide which of
00:39:17
these is for example a noble gas which
00:39:21
of these is a noble gas how do I know a
00:39:24
noble gas is one that has has a full
00:39:27
outer shell eight electrons in its outer
00:39:31
shell so that is
00:39:33
e which of these is in group four how do
00:39:37
we know group four means four electrons
00:39:43
in outer shell remember the number of
00:39:45
the group is the number of electrons in
00:39:47
outer shell so that is C which of these
00:39:51
is in Period
00:39:54
three what are we looking for
00:39:56
period three means three energy levels
00:40:00
so which of these has three energy
00:40:02
levels F monatomic gas which one is a
00:40:07
monatomic gas we said monatomic gas if
00:40:10
it is a noble gas full outer shell so
00:40:13
that
00:40:15
is okay so that is the end of this
00:40:17
chapter I hope this was useful to you uh
00:40:21
thank you for listening
