Can any one explain to me why 9999999999999999 is converted to 10000000000000000?
alert(9999999999999999); //10000000000000000
Can any one explain to me why 9999999999999999 is converted to 10000000000000000?


add comment 
Javascript doesn't have integers, only 64bit floats  and you've ran out of floatingpoint precision. See similar issue in Java: why is the Double.parseDouble making 9999999999999999 to 10000000000000000? 





Since only one bit is lost in this case, even 54bit numbers are exactly representable, since they nevertheless contain 


Question: Sometimes JavaScript computations seem to yield "inaccurate" results, e.g. 0.362*100 yields 36.199999999999996. How can I avoid this? Answer: Internally JavaScript stores all numbers in doubleprecision floatingpoint format, with a 52bit mantissa and an 11bit exponent (the IEEE 754 Standard for storing numeric values). This internal representation of numbers may cause unexpected results like the above. Most integers greater than 253 = 9007199254740992 cannot be represented exactly in this format. Likewise, many decimals/fractions, such as 0.362, cannot be represented exactly, leading to the perceived "inaccuracy" in the above example. To avoid these "inaccurate" results, you might want to round the results to the precision of the data you used. 


9999999999999999
clearly passes that limit – Ravi Nov 17 '12 at 10:05Math.pow(2,53)
): stackoverflow.com/questions/307179/… – David Nov 17 '12 at 10:08