How Many Significant Figures Does Physics Agree On?

In summary, physicists generally agree that the number of significant figures to use in a calculation should match the least precise value used to calculate it. Zeros after a decimal point are considered significant if they are included in the original measurement, but not if they are added for clarity or precision. However, if a number is given as an integer without a decimal point, it is impossible to determine the number of significant figures without additional information.
  • #1
fs93
12
0
What do physicists agree on the number of significant figures to use?

I've done some research and I found that the answer has the same number of significant figures as the least precise value used to calculate it.

ex: V=IR

[I=1.25474]
[R=5.2]

Hence, voltage is simply 6.5?

Thanks,

FS
 
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  • #2
But if [I=1.25474],[R=5.20000], the voltage is 6.52468 V.
 
  • #3
Is that so? Aren't zeros after a decimal completely irrelevant? Especially considering that an ammeter will give you a reading of one decimal place.
 
  • #4
fs93 said:
Is that so? Aren't zeros after a decimal completely irrelevant? Especially considering that an ammeter will give you a reading of one decimal place.

They are relevant if they are the amper-meter readings. In case of one decimal place they are irrelevant, one does not write them, and your post calculation is correct.
 
  • #5
Gotcha. Thanks Bob for Short :)
 
  • #6
If I understand correctly (and it's been 2 decades or more), the zeros to the right can indeed count.

If I weigh a sample on a microgram scale and it comes out as 100.00g, surely that is accurate to five sig digs.
 
  • #7
Yes, the general practice is to assume that "unnecessary" zeroes at the end are significant, and that if they were not significant, the writer would have omitted them.

This doesn't apply if the number is given as an integer without a decimal point. In that case, all the zeroes at the end are necessary, but not necessarily significant in terms of precision. If you're given the number 230000 without any additional information, it's impossible to say whether it has 2, 3, 4, 5, or 6 significant figures. However, if you're given 230000.0, then you can generally assume that it has 7 significant figures.
 

FAQ: How Many Significant Figures Does Physics Agree On?

What are significant figures and why are they important?

Significant figures are the digits in a number that are considered to be accurate and reliable. They are important because they indicate the precision of the measurement and help to avoid misleading or incorrect calculations.

How do I determine the number of significant figures in a measurement?

The rules for determining significant figures are as follows:

  • All non-zero digits are significant.
  • Zeroes between non-zero digits are significant.
  • Leading zeroes are not significant.
  • Trailing zeroes are only significant if there is a decimal point present.

Can significant figures be added or subtracted?

When adding or subtracting numbers, the result should have the same number of decimal places as the number with the fewest decimal places. For example, if you are adding 1.23 and 4.567, the result should be rounded to 1 decimal place (5.8).

How do significant figures affect rounding?

When rounding a number to a certain number of significant figures, the last digit should be rounded up if it is 5 or above, and rounded down if it is 4 or below. For example, if rounding 6.35 to 2 significant figures, the result would be 6.4.

Are there any exceptions to significant figures?

There are a few exceptions to the rules of significant figures, such as when dealing with logarithms, exact numbers, or conversion factors. It is important to follow the specific rules for each of these cases to ensure accurate calculations.

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