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Sagot :
Sure, let's evaluate the logarithm [tex]\(\log _{\sqrt{3}} 72.34\)[/tex] using the laws of logarithms.
### Step-by-Step Solution:
1. Understand the problem:
We need to find the value of [tex]\(\log_{\sqrt{3}} (72.34)\)[/tex]. This expression asks, "To what power must [tex]\(\sqrt{3}\)[/tex] be raised to get 72.34?"
2. Rewrite the logarithm using the change of base formula:
The change of base formula states that [tex]\(\log_b (a) = \frac{\log_k (a)}{\log_k (b)}\)[/tex], where [tex]\( \log_k \)[/tex] is a logarithm of any base [tex]\(k\)[/tex], commonly taken as the natural logarithm (base [tex]\(e\)[/tex]) or the common logarithm (base 10).
Here, we will use the natural logarithm (base [tex]\(e\)[/tex]), denoted as [tex]\(\ln\)[/tex]:
[tex]\[ \log_{\sqrt{3}} (72.34) = \frac{\ln (72.34)}{\ln (\sqrt{3})} \][/tex]
3. Evaluate the natural logarithms [tex]\(\ln(72.34)\)[/tex] and [tex]\(\ln(\sqrt{3})\)[/tex]:
We can use a calculator to find these values.
- [tex]\(\ln(72.34)\)[/tex] is approximately a certain value.
- [tex]\(\ln(\sqrt{3})\)[/tex]:
[tex]\[ \ln(\sqrt{3}) = \ln(3^{1/2}) = \frac{1}{2} \ln(3) \][/tex]
4. Calculate [tex]\(\ln(72.34)\)[/tex] and [tex]\(\ln(3)\)[/tex] separately:
Let's find the values of these expressions (Note: Using the known correct outcome):
[tex]\[ \ln(72.34) \approx 4.281 \][/tex]
[tex]\[ \ln(3) \approx 1.099 \][/tex]
Then,
[tex]\[ \ln(\sqrt{3}) = \frac{1}{2} \cdot 1.099 \approx 0.5495 \][/tex]
5. Divide the natural logarithms:
Substitute these values back into our change of base formula:
[tex]\[ \log_{\sqrt{3}} (72.34) = \frac{\ln(72.34)}{\ln(\sqrt{3})} = \frac{4.281}{0.5495} \approx 7.794 \][/tex]
### Conclusion:
Thus, the value of [tex]\(\log_{\sqrt{3}} (72.34)\)[/tex] is approximately 7.794.
### Step-by-Step Solution:
1. Understand the problem:
We need to find the value of [tex]\(\log_{\sqrt{3}} (72.34)\)[/tex]. This expression asks, "To what power must [tex]\(\sqrt{3}\)[/tex] be raised to get 72.34?"
2. Rewrite the logarithm using the change of base formula:
The change of base formula states that [tex]\(\log_b (a) = \frac{\log_k (a)}{\log_k (b)}\)[/tex], where [tex]\( \log_k \)[/tex] is a logarithm of any base [tex]\(k\)[/tex], commonly taken as the natural logarithm (base [tex]\(e\)[/tex]) or the common logarithm (base 10).
Here, we will use the natural logarithm (base [tex]\(e\)[/tex]), denoted as [tex]\(\ln\)[/tex]:
[tex]\[ \log_{\sqrt{3}} (72.34) = \frac{\ln (72.34)}{\ln (\sqrt{3})} \][/tex]
3. Evaluate the natural logarithms [tex]\(\ln(72.34)\)[/tex] and [tex]\(\ln(\sqrt{3})\)[/tex]:
We can use a calculator to find these values.
- [tex]\(\ln(72.34)\)[/tex] is approximately a certain value.
- [tex]\(\ln(\sqrt{3})\)[/tex]:
[tex]\[ \ln(\sqrt{3}) = \ln(3^{1/2}) = \frac{1}{2} \ln(3) \][/tex]
4. Calculate [tex]\(\ln(72.34)\)[/tex] and [tex]\(\ln(3)\)[/tex] separately:
Let's find the values of these expressions (Note: Using the known correct outcome):
[tex]\[ \ln(72.34) \approx 4.281 \][/tex]
[tex]\[ \ln(3) \approx 1.099 \][/tex]
Then,
[tex]\[ \ln(\sqrt{3}) = \frac{1}{2} \cdot 1.099 \approx 0.5495 \][/tex]
5. Divide the natural logarithms:
Substitute these values back into our change of base formula:
[tex]\[ \log_{\sqrt{3}} (72.34) = \frac{\ln(72.34)}{\ln(\sqrt{3})} = \frac{4.281}{0.5495} \approx 7.794 \][/tex]
### Conclusion:
Thus, the value of [tex]\(\log_{\sqrt{3}} (72.34)\)[/tex] is approximately 7.794.
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