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Formal Definition of a Limit

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Title: Formal Definition of a Limit


1
Formal Definition of a Limit
  • AP Calculus I
  • Ms. Hernandez

2
Formal Definition of a Limit
  • The idea of the limit is that as x gets closer to
    a value c, without being equal to c, f(x) must
    get closer to some value L that we call a limit.
  • Calculus uses ? to represent how far f(x) is from
    L . It is a positive, but very small increment
    which creates an interval about L .
  • The ? value is the error we allow in the output.
  • The corresponding value for the interval of the x
    values around c is d . This is also a positive,
    but very small value.
  • The d values depend on the ? values .
  • We use the ? value of how much error is
    acceptable in the output, how close we want to
    come to our target value, L, to find d .

3
Formal Definition
  • The limit of f(x) as x approaches c is L
  • if and only if, given ?  gt 0, there exists d  gt 0
    such that 0 lt x - c lt  d implies that
    f(x) - L lt  ?.
  • Some resources use e for ? and d for d
  • These symbols are inter- changeable

4
What does that mean?
  • Recall limit definition That the limit of f(x)
    as x approaches c is L if and only if, given ?
     gt 0, there exists d  gt 0 such that 0 lt x - c lt
    d implies that f(x) - L lt  ?.

Choosing ?  gt 0, means we want the distance of
between f(x) and L to be less than ? and this
distance is a small positive number so this can
restated as given ? gt 0
So we can find delta gt 0 given ? and this can
restated as there exists d  gt 0
  • So that the distance between x and c is less than
    d but with x does not equal c (we get really
    close but not there or arbitrarily close)
  • The distance between x and c is x c and this
    amount has to be less than d so thats why we
    have x c lt d
  • If x does not equal c then x c does not
    equal zero
  • So then x c is nonnegative which means x
    c gt 0
  • So when we put that all together we get 0 lt
     x - c lt  d
  • The distance from f(x) to L is f(x) L and
    this distance has to be less than ?
  • So that implies that f(x) - L lt  ?.

5
Example
  • Find d that corresponds to ? 0.01 from the
    definition of a limit
  • The limit of f(x) as x approaches c is L if and
    only if, given ?  gt 0, there exists d  gt 0 such
    that 0 lt x - c lt  d implies that f(x) - L lt 
    ?.
  • Given the and ? 0.01
    we want to find the corresponding d
  • So 3x2-12 lt 0.01 and we solve backwards for
    what d has to be
  • -0.01 lt 3x2-12 lt 0.01
    property of abs vales
  • 11.99 lt 3x2 lt 12.01 add
    12 to both sides
  • 3.99666 lt x2 lt 4.00333 divide by 3
    both sides
  • 1.99916 lt x lt 2.00083 take the
    square root of both sides
  • -0.00083 lt x - 2 lt 0.00083 we need a
    small interval so we - 2 from both sides
  • We would want to let d be less than -0.00083
    and 0.00083
  • We can always choose d to be smaller
  • We can simplify our answer to d 0.0008

6
Example
  • Find d that corresponds to ? 0.01 from the
    definition of a limit that
  • the limit of f(x) as x approaches c is L if and
    only if, given ?  gt 0, there exists d  gt 0 such
    that 0 lt x - c lt  d implies that f(x) - L lt 
    ?.
  • Choose to d 0.0008
  • We can verify that this works
  • Suppose 0 lt x 2 lt 0.0008 b/c c 2
    and d 0.0008
  • -0.0008 lt x 2 lt 0.0008
  • 1.9992 lt x lt 2.0008
  • 3.99680064 lt x2 lt 4.00320064
  • 11.99040192 lt 3x2 lt 12.00960192
  • Subtract 12 (our limit)
  • -0.00959808 lt 3x2 12 lt 0.00960192
  • So then 3x2 12 lt 0.00959808 lt ?

7
Source
  • The notes, examples, and information used in this
    brief lesson are taken from
  • Visual Calculus website (Thanks!)
  • Calculus of a Single Variable
  • 7th ed Larson Hostetler Edwards
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