Solving Exponential Equations Using Logarithms & The Quadratic Formula | Summary and Q&A

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February 24, 2020
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The Organic Chemistry Tutor
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Solving Exponential Equations Using Logarithms & The Quadratic Formula

TL;DR

Learn how to solve exponential equations by using logarithms and substitution.

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Key Insights

  • ❓ Exponential equations can be solved by replacing bases with common exponents to simplify the equation.
  • 🍉 Moving terms and dividing by exponents help to further simplify the equation.
  • ❓ Substitution and the quadratic formula can be used to find possible solutions for the equation.
  • ❓ Only positive solutions are valid for exponential equations.

Transcript

in this video we're going to talk about how to solve an exponential equation like the one you see on the board so we have 2 raised to the x plus 4 raised to the x is equal to 8 raised to the x what is the value of x how can we find the answer well feel free to pause the video if you want to try this problem now the first thing you need to notice wi... Read More

Questions & Answers

Q: How do you simplify the equation 2^x + 4^x = 8^x?

By substituting 4 with 2^2 and 8 with 2^3, the equation becomes 2^(2x) = 2^(3x), simplifying the bases.

Q: What is the next step after simplifying the equation?

Move the terms to one side of the equation, resulting in 0 = 2^(3x) - 2^(2x) - 2^x.

Q: How do you solve the quadratic equation obtained from substitution?

Use the quadratic formula with a = 1, b = -1, and c = -1 to find the possible values of y.

Q: Why is only one of the values obtained from the quadratic formula valid?

An exponential equation cannot equal a negative number, so only the positive solution is valid.

Summary & Key Takeaways

  • The video explains how to solve an exponential equation, specifically 2^x + 4^x = 8^x.

  • The first step is to identify that the bases (2, 4, and 8) are all multiples of 2.

  • By replacing 4 and 8 with 2^2 and 2^3, the equation can be simplified to 2^(2x) = 2^(3x).

  • Moving the terms to one side of the equation, it becomes 0 = 2^(3x) - 2^(2x) - 2^x.

  • Dividing each term by 2^x simplifies the equation further.

  • By using substitution and treating y as 2^x, the quadratic equation y^2 - y - 1 = 0 is obtained.

  • Applying the quadratic formula, two possible values for y are found: 1 + √5 / 2 and 1 - √5 / 2.

  • However, since an exponential equation cannot equal a negative number, only one solution is valid.

  • Using logarithms, the value of x is found to be approximately 0.694242.

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