There is one significant figure in the number .001. Leading zeroes, which only serve to indicate the position of the decimal, are never significant.
001 has one significant digit, so the answer can only have one. 1.2 x 001 = 1
It appears to come up for medical centers (hospitals) and colleges and universities in Pennsylvania. The 001 exchange is odd and may be an internal number, not typically connectable from outside numbers.
That would be every decimal number from .001 to 999, truncated to 3 digits.If you don't mind sticking to whole numbers, it's every counting numberfrom 100 to 999. There are 900 of those.
It is one thousandths.
None because 001 is the same as 1
there is one significant figure in 001 because 0's only count as significant figures when they are after a whole number and there is a decimal point. ex. there are three sig figs in 100. 1.00 and 10.0
001 has one significant digit, so the answer can only have one. 1.2 x 001 = 1
Left zero's are NOT significant: So it's one in 0.01
There are infinitely many number greater than 10. For example, 10.000......001, 10.000......002,
It appears to come up for medical centers (hospitals) and colleges and universities in Pennsylvania. The 001 exchange is odd and may be an internal number, not typically connectable from outside numbers.
The two numbers mentioned in the question have four significant figures (often called significant digits). If you wish to check your knowledge of sig-digs, check out the following link: http://science.widener.edu/svb/tutorial/sigfigures.html
0800 001 001
There is no moshling 001.
Zero is 002. Well the numbers repersent wat examination number they are meaning wat examiny they are, so the numbers are given to each pair Ichi 001 Zero 002 , San 003 forta 004, Goe 005 Rokka 006,ect. so its like a ID number
002+002+001=005
Yes. Count the number of numbers to the RIGHT of the decimal point. First is 10ths, then 100ths. then 1,000ths.
Real numbers include fractional and decimal numbers. So the closest-to-zero positive real number would be 0.00000000...001; that is, an an infinite number of zeros between the decimal and the 1.