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1.
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If the product rule is used to find the derivative of ,
then:
A. | | B. | | C. | | D. | | E. | None of the
above |
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2.
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Complete the trig derivative rule.
A. | | B. | | C. | | D. | | E. | None of the
above |
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3.
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If the quotient rule is used to find the derivative of ,
then:
A. | | B. | | C. | | D. | | E. | None of the
above |
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4.
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Complete the derivative rule.
A. | | B. | | C. | | D. | | E. | None of the
above |
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5.
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Find the slope of the local tanget drawn to the graph of at
.
A. | | B. | | C. | | D. | | E. | None of the
above |
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6.
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A coin is dropped from the top of a building. Which of the
following represents the correct position function for the coin?
A. | | B. | | C. | | D. | | E. | None of the
above |
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7.
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Evaluate the derivative of the given function.
A. | | B. | | C. | | D. | | E. | None of the
above |
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8.
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Suppose that the position function for a object moving in a linear path is given
by where is measured in meters and
is measured in seconds. Find the velocity of the object when
seconds.
A. | | B. | | C. | | D. | | E. | None of the
above |
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9.
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If , then
A. | | B. | | C. | | D. | | E. | None of the
above |
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10.
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Suppose that the position function for an object
moving in a linear path is given by where is measured in feet and
is measured in seconds. Find the acceleration of the object when
seconds.
A. | | B. | | C. | | D. | | E. | None of the
above |
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