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Calculus I Chapter Three1
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2 Calculus Timeline: Descartes 1596-1650 Cavalieri 1598-1647 Fermat 1601-1665 Wallis 1616-1703 Barrow 1630-1677 Gregory 1638-1675 Newton 1642-1727 Leibniz 1646-1716
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Calculus I Chapter Three3 GeoGebra
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Calculus I Chapter Three4
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5 Explain how slopes of secant lines approach the slopes of the tangent line at a point.(Definition(1)) Definition(1) Derivative at a point GeoGebra fileDerivative at a point
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Calculus I Chapter Three6 Explain how slopes of secant lines approach the slopes of the tangent line at a point. (Definition(2)) Definition(2) Derivative at a point GeoGebra file
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Calculus I Chapter Three7 The Derivative Function
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Calculus I Chapter Three8 Average Rates The pattern of the average rates looks quadratic! xAverage Rate 17 219 337 461 591 6127
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Calculus I Chapter Three9 The derivative can be interpreted in two ways: the slope of the tangent line to the graph of the relation at the given x value. the rate of change of the function with respect to x at the given x value.
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Calculus I Chapter Three14 a-D b-C c-B d-A
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Calculus I Chapter Three16 Differentiable Implies Continuous
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Calculus I Chapter Three49 Alternative proof of the product rule using linearization
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Derivative of lnx:
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Derivative of :
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Derivative of :
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Derivative of sine inverse function:
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Derivative of cosine inverse function:
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Derivative of tangent inverse function:
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Derivative of cotangent inverse function:
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Derivative of secant inverse function:
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Derivative of cosecant inverse function:
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Calculus I Chapter Three105 Higher-order Derivatives Geogebra’s answer
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Calculus I Chapter Three107 Tangent lines and Normal lines The normal line to a curve C at a point A is the line through A that is perpendicular to the tangent line at A. The concept of the normal line to a curve has applications in the study of optics where one needs to consider the angle between a light ray and the normal line to a lens.
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