Quiz: LOGARITHMIC LIMITS AND DERIVATIVES — 8 Fragen

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The derivative of the product of two functions is given by the product rule, which states that (uv)' = u'v + uv'. This rule specifically describes how to differentiate a product of functions, making it the correct answer.

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The primitive of the function $rac{u'}{u}$, where $u$ is differentiable and non-zero, is $ ext{ln}|u| + C$. This is a standard result in calculus, derived from the chain rule for the logarithm function.

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The limit of ln x as x approaches zero from the right is -∞, which helps in analyzing the behavior of functions involving logarithms near zero, especially in limits and asymptotic analysis.

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The limit of $ ext{ln } x$ as $x o + ext{infinity}$ was established during the development of calculus in the late 17th century, when mathematicians like Newton and Leibniz formalized the properties of logarithms and limits.

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Both limits involve the logarithm function approaching unbounded values at boundary points, with $ ext{ln} x o -inite$ as $x o 0^+$ and $ ext{ln} x o +inite$ as $x o +inite$. They are similar in that both are unbounded, but differ in the direction of divergence.

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Leonhard Euler is credited with formalizing the properties of the natural logarithm, including its primitive function and its relation to derivatives of ratios like u'/u. His work in the 18th century established these foundational concepts in calculus.

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When $U(x)$ approaches zero from the right, $ ext{ln}(U(x))$ tends to negative infinity. This is because the natural logarithm function tends to $- ext{infinity}$ as its argument approaches zero from the positive side, reflecting the unbounded decrease of the logarithm near zero.

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As x approaches infinity, \\text{ln}(x^2 + 1) behaves like \\text{ln}(x^2) = 2\\text{ln} x, which grows slower than x. Therefore, the ratio \\frac{ ext{ln}(x^2 + 1)}{x} tends to 0, applying the limit laws and properties of logarithms.