Introduction to Logarithmic Differentiation | Summary and Q&A

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February 27, 2018
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The Organic Chemistry Tutor
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Introduction to Logarithmic Differentiation

TL;DR

Logarithmic differentiation allows us to find the derivative of functions with variable exponents by taking natural logarithms, applying the product rule, and simplifying the expression.

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Key Insights

  • ❓ Logarithmic differentiation is a useful technique for finding derivatives of functions with variable exponents.
  • 🙃 Taking the natural log of both sides allows us to move the exponent to the front, simplifying the differentiation process.
  • 😑 Applying the product rule is necessary when differentiating the logarithmic expression.
  • ❓ The final step involves replacing the variable with the original function to obtain the derivative.

Transcript

how can we differentiate a function that looks like this a variable raised to a variable what is the derivative of x raised to the x how can we find the answer well first we need to use a process called logarithmic differentiation let's set y equal to x to the x so we need to find d y d x now before you take the derivative of both sides of the equa... Read More

Questions & Answers

Q: How do you use logarithmic differentiation to find the derivative of a function with a variable raised to another variable?

To find the derivative of a function with a variable exponent, set the function equal to a variable, take the natural log of both sides, move the exponent to the front, differentiate using the product rule, replace the variable with the original function, and simplify the expression.

Q: What is the derivative of x raised to the x using logarithmic differentiation?

By applying logarithmic differentiation to x raised to the x, the derivative is found to be x raised to the x times the natural log of x plus 1.

Q: How can logarithmic differentiation be used to find the derivative of x raised to the sine x?

To find the derivative of x raised to the sine x, set the function equal to a variable, take the natural log of both sides, differentiate using the product rule, replace the variable with the original function, and simplify the expression. The resulting derivative is x raised to the sine x times cosine ln x plus sine x divided by x.

Q: What is the derivative of ln x raised to the x using logarithmic differentiation?

To find the derivative of ln x raised to the x, set the function equal to a variable, take the natural log of both sides, differentiate using the product rule, replace the variable with the original function, and simplify the expression. The derivative is x raised to the power of ln x times cosine ln x plus sine x over x.

Summary & Key Takeaways

  • Logarithmic differentiation is a process used to find the derivative of functions with variable exponents.

  • To use logarithmic differentiation, set the given function equal to a variable, take the natural log of both sides, and move the exponent to the front.

  • Apply the product rule and simplify the expression by replacing the variable with the original function.

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