Answered

IDNLearn.com provides a user-friendly platform for finding and sharing knowledge. Get step-by-step guidance for all your technical questions from our knowledgeable community members.

Which expressions are equivalent to the given expression?

[tex]\[ 5 \log_{10} x + \log_{10} 20 - \log_{10} 10 \][/tex]

A. [tex]\(\log_{10} (2x^5)\)[/tex]

B. [tex]\(\log_{10} (10x)\)[/tex]

C. [tex]\(\log_{10} (20x^5) - 1\)[/tex]

D. [tex]\(\log_{10} (2x)^5\)[/tex]

E. [tex]\(\log_{10} (100x) + 1\)[/tex]

Sagot :

GinnyAnsweridn
To determine which expressions are equivalent to the given expression [tex]\(5 \log_{10} x + \log_{10} 20 - \log_{10} 10\)[/tex], let's break down and simplify this expression step by step using properties of logarithms.

1. Simplify [tex]\(\log_{10} 20 - \log_{10} 10\)[/tex]:
- Using the property [tex]\(\log_b(a) - \log_b(b) = \log_b\left(\frac{a}{b}\right)\)[/tex], we have:
[tex]\[ \log_{10} 20 - \log_{10} 10 = \log_{10} \left(\frac{20}{10}\right) = \log_{10} 2 \][/tex]

2. Substitute back into the original expression:
- Replace [tex]\(\log_{10} 20 - \log_{10} 10\)[/tex] with [tex]\(\log_{10} 2\)[/tex]:
[tex]\[ 5 \log_{10} x + \log_{10} 2 \][/tex]

3. Combine the logarithms:
- Using the property [tex]\(\log_b(a) + \log_b(b) = \log_b(ab)\)[/tex], we combine the logarithms:
[tex]\[ 5 \log_{10} x + \log_{10} 2 = \log_{10}(x^5) + \log_{10}(2) = \log_{10}(2 \cdot x^5) \][/tex]

So, the given expression [tex]\(5 \log_{10} x + \log_{10} 20 - \log_{10} 10\)[/tex] simplifies to [tex]\(\log_{10}(2 \cdot x^5)\)[/tex].

Now, let's analyze the candidate expressions:

1. [tex]\(\log_{10}(2 x^5)\)[/tex]:
- Equivalent. This directly matches our simplified expression.

2. [tex]\(\log_{10}(10 x)\)[/tex]:
- Not equivalent. Using the property [tex]\(\log_b(ab) = \log_b(a) + \log_b(b)\)[/tex], this simplifies to [tex]\(\log_{10} 10 + \log_{10} x = 1 + \log_{10} x\)[/tex], which is not the same as [tex]\(\log_{10}(2 \cdot x^5)\)[/tex].

3. [tex]\(\log_{10}\left(20 x^5\right) - 1\)[/tex]:
- Equivalent. We can process this as:
[tex]\[ \log_{10}(20 x^5) - \log_{10}(10) = \log_{10}\left(\frac{20 x^5}{10}\right) = \log_{10}(2 x^5) \][/tex]
- Thus, it matches our simplified expression.

4. [tex]\(\log_{10}(2 x)^5\)[/tex]:
- Not equivalent. This represents:
[tex]\[ 5 \log_{10}(2 x) = 5(\log_{10} 2 + \log_{10} x) = 5 \log_{10} 2 + 5 \log_{10} x = \log_{10}(2^5) + \log_{10}(x^5) = \log_{10}(32 x^5) \][/tex]
- This does not simplify to [tex]\(\log_{10}(2 x^5)\)[/tex].

5. [tex]\(\log_{10}(100 x) + 1\)[/tex]:
- Not equivalent. Let's simplify it step-by-step:
[tex]\[ \log_{10}(100 x) + 1 = \log_{10}(10^2 x) + 1 = \log_{10}(100 x) + \log_{10} 10 = \log_{10}(100 x \cdot 10) = \log_{10}(1000 x) \][/tex]
- This does not simplify to [tex]\(\log_{10}(2 x^5)\)[/tex].

In summary, these are the equivalent expressions:
- [tex]\(\log _{10}(2 x^5)\)[/tex]
- [tex]\(\log _{10}\left(20 x^5\right)-1\)[/tex]
Thank you for joining our conversation. Don't hesitate to return anytime to find answers to your questions. Let's continue sharing knowledge and experiences! IDNLearn.com provides the best answers to your questions. Thank you for visiting, and come back soon for more helpful information.