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- [Instructor] We're told consider
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the exponential function f,
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which they have to write over here,
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what is the domain
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and what is the range of f?
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So pause this video and see
if you can figure that out.
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All right, now let's work
through this together.
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So let's, first of all,
just remind ourselves
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what domain and range mean.
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Domain is all of the x values
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that we could input into our function
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where our function is defined.
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So if we look over here,
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it looks like we can
take any real number x
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that is any positive value.
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It looks like it's defined.
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This graph keeps going
on and on to the right,
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and this graph keeps going
on and on to the left.
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We could also take on negative values.
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We could even say x equals 0.
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I don't see any gaps here
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where our function is not defined.
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So our domain looks like
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all real numbers.
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Or another way to think about it
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is x can take on any real number.
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And if you put it into our function,
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f of x is going to be defined.
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So now let's think about the range.
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The range, as a reminder,
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is the set of all of the values
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that our function can take on.
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So when we look at this over here,
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it looks like if our x values
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get more and more negative,
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or the value of our function
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just goes up towards infinity,
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so it can take on these
arbitrarily large values.
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But then as we move in
the positive x direction,
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our function value gets
lower and lower and lower.
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And it looks like it approaches 0,
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but never quite gets to 0.
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And actually that's what this dotted line
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over here represents.
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That's an asymptote.
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That means that as x gets
larger and larger and larger,
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the value of our function is going to get
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closer and closer to this dotted line,
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which is at y equals 0
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but it never quite gets there.
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So it looks like this function
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can take on the any real value
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that is greater than 0,
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but not at 0 or below 0.
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So all real numbers
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greater than, greater than 0.
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Or another way to think about it
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is we could set the range of saying
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f of x is greater than 0,
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not greater than an equal to,
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it'll get closer and closer
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but not quite equal that.
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Let's do another example
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where they haven't drawn the graph for us.
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So let's look at this one over here.
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So consider the exponential function h,
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and actually let me get rid of all of this
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so that we can focus
on this actual problem.
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So consider the exponential function h
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where h of x is equal to that.
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What is the domain and
what is the range of h?
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So let's start with the domain.
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What are all of the x values
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where h of x is defined?
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Well, I could put any x value here.
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I could put any negative value.
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I could say what happens when x equals 0.
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I can say any positive value.
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So once again, our domain
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is all real numbers for x.
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Now what about our range?
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This one is interesting.
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What happens when x gets
really, really, really large?
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Let's pick a large x.
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Let's say we're thinking about h of 30,
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which isn't even that large,
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but let's think about what happens.
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That's -7 times 2/3 to the 30th power.
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What does 2/3 to the 30th power look like?
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That's the same thing as equal to -7
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times 2 to the 30th
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over 3 to the 30th.
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You might not realize it,
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but 3 to the 30th is much
larger than 2 to the 30th.
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This number right over here
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is awfully close to 0.
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In fact, if you want to verify that,
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lemme take a calculator out
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and I could show you that.
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If I took 2 divided by 3
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which we know is .6 repeating,
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and if I were to take that
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to the 30th power,
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it equals a very, very,
very small positive number.
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But then, we're going to
multiply that times -7.
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And if we want, let's do that,
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times -7.
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It equals a very, very
small negative number.
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Now if you go the other way,
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if you think about negative exponents,
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so let's say we have h of -30,
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that's going to be -7
times 2/3 to the -30,
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which is the same thing as -7;
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this negative, instead of
it writing it that way,
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we could take the reciprocal here,
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this is the same thing as 3/2
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to the +30 power.
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Now this is a very large positive number,
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which we will then multiply by -7
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to get a very large negative number.
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Just to show you
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that that is a very large positive number,
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so if I take 3/2,
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which is 1.5 of course, 3/2,
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and I am going to raise that
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to the 30th power,
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well, it's roughly 192,000.
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But now, if I multiply by -7,
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it's gonna become a large
negative number, times -7,
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it's equal to a little
bit over negative million.
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So one way to visualize this graph,
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and I'll do it very quickly,
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is what's happening here.
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And if we want,
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we can think about if this is the x axis,
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this is the y axis,
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we can even think about when x equals 0,
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this is all 1.
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And so h of 0 is equal to -7,
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so if we say -7 right over here.
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When x is very negative,
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h takes on very large negative values,
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we just saw that.
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And then as x becomes
more and more positive,
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it approaches 0.
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The function approaches 0
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but never quite exactly gets there.
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And so once again,
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we could draw that dotted,
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lemme do that in a different
color so you can see it,
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we can draw that dotted
asymptote line right over there.
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So what's the range?
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So we could say all real numbers
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less than 0.
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So let me write that, it is:
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all real numbers
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less than 0.
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Or we could say that f of x
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can take on any value less than 0:
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f of x is going to be less than 0.
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It approaches 0 as x
gets larger and larger
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but never quite gets there.
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