0.0570
222.008 mm rounded to four significant digits is 222.0 mm
It is a rational number rounded to 4 significant digits.
You would end up with a decimal number with fewer significant digits.
1050 contains 4 significant digits and cannot be rounded to two significant figures without changing the value of the number.
The answer depends on the number of decimal places or the number of significant digits to which you wish to round the number.
The answer depends on the number of decimal places or the number of significant digits to which you wish to round the number.
Solution: Given, number = 0.4559 If a number only has 2 significant digits, the maximum significant digits it can be rounded to is 2 significant digits. The zeros before a non Zero digit are not significant. The since 9>5 it adds 1 to preceding one while rounding off. ⟹0.046. The original number, 0.4559, has 4 significant digits. Rounding this number to 2 significant digits gives us 0.46.
All of the digits in 23139 are significant. If you are not specifying a certain number of sig figs, then the answer is 23139.
When multiplying numbers with significant digits, count the total number of significant digits in each number being multiplied. The result should have the same number of significant digits as the number with the fewest significant digits. Round the final answer to that number of significant digits.
There are four significant digits in the number 1.071.
There are three rules that are used when rounding to a desired number of significant digits (figures): 1. All digits that are not zero, are significant 2. In a number that does not have a decimal point, all zeros between two non-zero digits are significant digits 3. In a number that has a decimal point, all zeros after the leftmost non-zero digit are significant Examples: 12345 rounded to 3 significant digits: 12300, or 1.23 x 104 12.345 rounded to 3 significant digits: 12.3, or 1.23 x 101 0.012345 rounded to 3 significant digits: 0.0123, or 1.23 x 10-2 0.012045 rounded to 3 significant digits: 0.0120, or 1.20 x 10-2 In the last example the zero after 2 is significant. That is the reason for keeping it in the result when rewriting it in powers of 10 notation.
It isn't. 52.752 could be rounded to 52.8 if you were rounding to the nearest tenth.