Asked by Oscar
Evaluate the Following Using logarithm
Table
1) 5.25 Multiplied by 23.73
Table
1) 5.25 Multiplied by 23.73
Answers
Answered by
Oscar
I don't know it
Answered by
R_scott
log(5.25) + log(23.73) = log(5.25 * 23.73)
find the logs and add them ... this is the log of the answer
find the logs and add them ... this is the log of the answer
Answered by
mathhelper
<b>I doubt if many people will read this, but it was fun doing it...</b>
My goodness, I recall teaching this over 50 years ago.
You mean to tell me, this is still on your curriculum???
Dilemma :
If your text still has tables in the back of the book, it must be over
25 years old, and it is time to get a new text from your school board.
If you don't have tables, then you must use a calculator.
If your calculator can do logs, then surely it can do basic multiplication.
after about 1990, I would use this type of question only as a "historical
novelty" in the introduction to logarithms.
Here are the actual steps needed to do it the old way:
let x = 5.25*23.73
log x = log 5.25 + log 23.73
log 5.25 = .7202 , most tables only had 4 digits
log 23.73
= log (2.373 * 10^1)
= .3753 + 1 = 1.3753
log x = log 5.25 + log 23.73
= .7202 + 1.3753
= 2.0955
then x = 10^2.0955
= 10^2 * 10^.0955
now go to the "antilog" table and find .0955
here is one such antilog table:
cdn1.byjus.com/wp-content/uploads/2019/07/Antilog-Table-Image.png
I would find .09 in the first column, then in that row across the top to 5
that would give me 1245. That takes care of the .095 but we had .0955
While still in the row for .09 go to the difference section of the table and find
the 5 at the top, I see a 2 , so we add that to 1245 to get 1247,
really 1.247
It was assumed that there was a decimal place after the first digit
and that's where the 10^2 comes in
so we multiply 1.245 by 10^2 to get 124.5
actual answer after 7 seconds on my calculator
5.25 * 23.72 = 124.5825
notice that my log table method was off by 1 decimal, that's major.
My goodness, I recall teaching this over 50 years ago.
You mean to tell me, this is still on your curriculum???
Dilemma :
If your text still has tables in the back of the book, it must be over
25 years old, and it is time to get a new text from your school board.
If you don't have tables, then you must use a calculator.
If your calculator can do logs, then surely it can do basic multiplication.
after about 1990, I would use this type of question only as a "historical
novelty" in the introduction to logarithms.
Here are the actual steps needed to do it the old way:
let x = 5.25*23.73
log x = log 5.25 + log 23.73
log 5.25 = .7202 , most tables only had 4 digits
log 23.73
= log (2.373 * 10^1)
= .3753 + 1 = 1.3753
log x = log 5.25 + log 23.73
= .7202 + 1.3753
= 2.0955
then x = 10^2.0955
= 10^2 * 10^.0955
now go to the "antilog" table and find .0955
here is one such antilog table:
cdn1.byjus.com/wp-content/uploads/2019/07/Antilog-Table-Image.png
I would find .09 in the first column, then in that row across the top to 5
that would give me 1245. That takes care of the .095 but we had .0955
While still in the row for .09 go to the difference section of the table and find
the 5 at the top, I see a 2 , so we add that to 1245 to get 1247,
really 1.247
It was assumed that there was a decimal place after the first digit
and that's where the 10^2 comes in
so we multiply 1.245 by 10^2 to get 124.5
actual answer after 7 seconds on my calculator
5.25 * 23.72 = 124.5825
notice that my log table method was off by 1 decimal, that's major.
Answered by
Jimoh MAIMUNA
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