0.05
Assuming the number is written to its greatest precision, it will be half of the place of the last digit. Since the 9 is in the tenths place, the greatest possible error is ±0.5*a tenth = ±0.05 metres.
49152 * * * * * Volume is a 3-dimensional concept and cannot be determined from only 2 linear measures.
In dbms with m attributes 2^m-1 keys are possible. BY-ROHIT
Since 1 kilometre = 1000 metres, then if an error is 1 m in 1 km, then that would translate to 1/1000 = 0.001 x 100 = 0.1% error.
0.05
0.05 metres.
49152 m
192 m
Assuming the number is written to its greatest precision, it will be half of the place of the last digit. Since the 9 is in the tenths place, the greatest possible error is ±0.5*a tenth = ±0.05 metres.
The 2013 BMW X6-M is 16 ft. 0 in. (192 in.) long.
The 2012 BMW X6-M is 16 ft. 0 in. (192 in.) long.
The 2014 BMW X6-M is 16 ft. 0 in. (192 in.) long.
The 2010 BMW X6-M is 16 ft. 0 in. (192 in.) long.
The 2011 BMW X6-M is 16 ft. 0 in. (192 in.) long.
It is half the place value of the last digit that is given. In this case, it is + or -0.05m = + or - 5 cm.
It is not clear what do you mean by 'logical error', but perhaps an example will help: int main (void) { FILE *f= fopen ("foobar.txt", "r"); if (f) printf ("couldn't open foobar.txt for reading"); fclose (f); } corrected version: int main (void) { FILE *f= fopen ("foobar.txt", "r"); if (f==NULL) { printf ("couldn't open foobar.txt for reading"); return 0; } fclose (f); } Logical error can be generated by using the #error directive. This directive doesn't allows the program to run, in certain conditions. An error message has been generated by the compiler because of this preprocessor directive. e.g. #define M 10 #if M!=10 #error M must be 10 #endif in this case no error mesage will be generated because M is equal to 10 #define M 11 #if M!=10 #error M must be 10 #endif in this case, as M is not equal to 10 error message will be generated by the compiler and the message will be M must be 10.