Predicting number of digits with logarithms

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To determine the number of digits in 3^40 using logarithms, the formula log_10(3^40) = 40 * log_10(3) is applied. Given that log_10(3) is approximately 0.477, the calculation results in log_10(3^40) being roughly 19.08. This indicates that 3^40 has 20 digits, as the number of digits is found by taking the integer part of the logarithm and adding one. Additionally, the discussion highlights the use of the relationship log_b(x) = ln(x)/ln(b) for calculating logarithms with bases other than e. Understanding these logarithmic principles is essential for accurately predicting the number of digits in large numbers.
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If log103 =0.477 then the number of digits in 340 will be?

100.477 = 3
10(0.47740)=340
hm...?
 
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kartik. said:
if log103 =0.477 then the number of digits in 340 will be?

100.477 = 3
10(0.47740)=340
hm...?

340 = (100.477)40 = 100.477*40
 
Kartik. said:
If log103 =0.477 then the number of digits in 340 will be?

100.477 = 3
10(0.47740)=340
hm...?


Hey Kartik and welcome to the forums.

Using log laws, we know that we wish to find log_10(3^40) which gives us the number of decimal digits required to represent 3^40.

Using log laws we first apply log_10(3^40) = 40log_10(3). Now you are given log_10(3), but in future if you wish to find log_b(x) where b is not the natural base e you use the relatioship log_b(x) = ln(x)/ln(b) where ln(x) is the natural logarithm of x and ln(b) must be non-zero (i.e. b can't be 1 or close enough to it for practical purposes).
 

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