-
We're on problem number 7.
-
If the average of x and 3x is
12, what is the value of x?
-
So the average, so x plus 3x--
and I'm averaging two numbers
-
so divide by 2-- that's going
to be equal to 12.
-
So we just solve for this.
-
Multiply both sides of the
equation by 2 and you get 2
-
times, times 2, this
cancels with this.
-
You get x plus 3x
is equal to 24.
-
And what's x plus 3x.
-
That's 4x, right?
-
4x is equal to 24.
-
x is equal to 6, and
that's choice C.
-
Next problem.
-
Problem 8.
-
At Maple Creek High School, some
members of the chess club
-
are also on the swim team, and
no members of the swim team
-
are tenth graders.
-
Which of the following
must be true.
-
This seems like it'll call
for a Venn diagram.
-
So let's say that that
represents the chess club.
-
And they say some members
of the chess club
-
are on the swim team.
-
So some members are
on the swim team.
-
Maybe I should put the swim
team in like blue.
-
So let's say the swim team.
-
That's the swim team.
-
And these are the members,
right, that are
-
in both right here.
-
But then it tells us no members
of the swim team are
-
tenth graders.
-
So if I draw another circle
for the tenth graders, it
-
can't intersect with the swim
team, but it could intersect
-
with the chess team.
-
I don't know.
-
I mean it could be like that.
-
That could be tenth graders.
-
It could be like that.
-
Or it could be out
here some place.
-
But we don't know.
-
There could be chess and tenth
graders, just not the same
-
people who are on
the swim team.
-
So let's see.
-
So which of the following
must be true?
-
No members of the chess club
are tenth graders.
-
No.
-
This is a situation where you
could have some members of the
-
chess club who aren't
on the swim team who
-
could be tenth graders.
-
B, some members of the chess
club are tenth graders.
-
Well some members could be, but
we don't know for sure.
-
This could be tenth grade.
-
We don't know.
-
This could be the tenth grade
kind of set or this could be
-
the tenth grade.
-
There might be no tenth graders
in either the chess
-
team or the swim team.
-
We don't know for sure.
-
And then choice C, some members
of the chess club are
-
not tenth graders.
-
This we know for sure.
-
How do we know it for sure?
-
Because these kids who are on
both, they're in the chess
-
club, but they're also
on the swim team.
-
The fact that they're in swim
team, we know that they can't
-
be tenth graders.
-
So this is some members of the
chess club-- this little
-
intersection here-- that
are not tenth graders.
-
So choice C is the
correct choice.
-
Next problem.
-
If 3x plus n is equal
to x plus 1, what is
-
n in terms of x?
-
So we essentially just
solve for n.
-
Let's subtract 3x
from both sides.
-
You get n is equal to--
what's x minus 3x?
-
It's minus 2x.
-
And n plus 1.
-
And we're done.
-
And that choice isn't there, but
if you just switch these
-
two terms you just get that
equals 1 minus 2x and
-
that's choice D.
-
Pretty quick problem, especially
for one that's the
-
ninth problem.
-
They normally get a little
harder by this point.
-
Problem 10.
-
If k is a positive integer, let
k be defined as a set of
-
all multiples of k.
-
So k with a square around it
is equal to the set of
-
multiples of k.
-
All of the numbers in which of
the following sets are also in
-
all three of the set-- OK.
-
All of the numbers in which of
the following sets are also in
-
all three of the sets
of 2, 3 and 5?
-
So the what they're saying is 2,
3, 5, this donates all the
-
multiples of 2.
-
This is all multiples of 3.
-
This is all multiples of 5.
-
So what they're essentially
saying is let's find a number
-
where all of its multiples, all
of this number's multiples
-
are also going to be multiples
of each of these.
-
So it has to be a multiple--
so every number that--
-
whatever this mystery number
is, let's call it x-- every
-
multiple of x has to be a
multiple of 2, 3 and 5.
-
Well the simple way is if x is a
multiple of 2, 3 and 5, then
-
every multiple of x
is going to be a
-
multiple of 2, 3 and 5.
-
So what's 2 times 3 times 5?
-
It's 2 times 3 times 5.
-
That's 6 times 5, that's 30.
-
So 30 is a multiple of all of
them, so any multiple of 30
-
will be a multiple
of all of these.
-
When we look at the choices
we don't see 30.
-
But do we see any other
number that is a
-
multiple of 2, 3 and 5?
-
Well sure, 60 is, right?
-
We just multiply by 2 again.
-
But 60 is still a multiple
of 2, 3 and 5.
-
If you were to do 2, 4, 6, 8 all
the way you'd get 60, if
-
you go 3, 9, 12, 15 all the
way, you'd get to 60.
-
You go 5, 10, 15, 20,
25, you'd get to 60.
-
So 60 is a multiple
of all of them.
-
So what we're saying is-- so
what's the set of all the
-
multiples of 60?
-
It's 60, 120, 180, 240,
et cetera, right?
-
And all of these numbers are
in each of these sets.
-
Because all of these numbers are
multiples of 2, 3 and 5.
-
So our answer is 60.
-
If you look at the other
choices, some of them are
-
divisible by 5, some are
divisible by 2 or 3,
-
some are 3 and 5.
-
But none of them are divisible
by 2, 3 and 5, only 60 is.
-
Next problem.
-
That problem was a little hard
to read initially though.
-
That's how they confuse you.
-
So we're going to go from A to
D-- I should have drawn all
-
the lines first. Let me draw the
lines first. It's like a
-
hexagon kind of.
-
The top, the outside of
the hexagon there.
-
A, B, C, D, E, F.
-
And then this is the origin.
-
And the figure above,
AD is equal to BE.
-
Oh, no, no.
-
They don't tell us that.
-
I'm hallucinating.
-
In the figure above AD, BE,
and CF intersect at 0.0.
-
The intersect's here
at the origin.
-
If the measure of AOB, the
measure of that, is 80
-
degrees, and CF bisects
BOD, so it
-
bisects this larger angle.
-
CF bisect BOD, that angle.
-
So that tells us that
this angle has to be
-
equal to this angle.
-
That's the definition of
bisecting an angle.
-
You're splitting this larger
angle in half.
-
So these angles have to be
equal to each other.
-
So what is the measure of EOF?
-
So we want to figure
out this angle.
-
Well this angle is opposite to
this angle, so they're going
-
to be equal.
-
So if we can figure out
this angle we're done.
-
So let's call this angle x.
-
If that angle's x this
angle is also x.
-
This x, this x, and this
80 degrees, they're all
-
supplementary because they all
go halfway around the circle.
-
So x plus x plus 80 is going
to be equal to 180 degrees.
-
2x plus 80 is equal to 180.
-
2x is equal to 100,
x is equal to 50.
-
And as we said before, x is
equal to 50, the angle EOF,
-
which you're trying to figure
out, is opposite to it so it's
-
going to be equal.
-
So this is also going
to be 50 degrees.
-
And that's choice B.
-
Next problem.
-
I don't know if I have time
for this, but I'll try.
-
Problem 12.
-
k is a positive integer.
-
What is the least value
of k for which the
-
square root of-- OK.
-
So what is the least value
of k for which 5k
-
over 3 is an integer.
-
So this has to be a whole
number, right?
-
So essentially if we want to
find the least value of k, we
-
essentially want to say, well
what's the least integer that
-
this could be?
-
And they're telling us that
k is a positive integer.
-
So first of all, in order for
the square root to be an
-
integer, this whole thing has
to be an integer, right?
-
So let's see, k has to
be a multiple of 3.
-
In order for this expression to
be an integer, k has to be
-
a multiple of 3.
-
If k is 3, we get square root
of 15 over 3-- well that
-
doesn't work.
-
If k is 3 we just
get 5 in there.
-
Actually, let me continue this
into the next problem because
-
I don't want to rush this.
-
I'll see you in the
next video.
Khan Academy
