This equals 0.1004 ; The power of -1 tells you that the decimal point was moved to the right (negative) by 1 place. So you move it back to the left by one place and take away the [x 10-1]
Pairs of positive integer factors which multiply to make 1004 are: 1 x 1004 2 x 502 4 x 251 And their reverses.
40Solution:x=1004 * √x4 * √1004 * 1040
30% percent of 1004 is the same as asking "What is 10% x 3 of 1004?" 10% of any number can be found my simply moving the decimal point one place to the left. Example: 10% of 100 is 10. 0 and 10% of 50000 is 5000.0. 30% of 1004 is 100.4. 100.4 x 3 = 301.2
83 with 8 remaining 1,004 - 8 = 996 = 12 x 83
28 x 101 = 2,828
50% of 1004: = 50% x 1004 = 0.50 x 1004 = 502
Pairs of positive integer factors which multiply to make 1004 are: 1 x 1004 2 x 502 4 x 251 And their reverses.
40Solution:x=1004 * √x4 * √1004 * 1040
-944
(5 x 100 + 7 - 5) x (8 - 6) = 1004
30% percent of 1004 is the same as asking "What is 10% x 3 of 1004?" 10% of any number can be found my simply moving the decimal point one place to the left. Example: 10% of 100 is 10. 0 and 10% of 50000 is 5000.0. 30% of 1004 is 100.4. 100.4 x 3 = 301.2
1 x 101, 101 x 1 = 101
There is no solution to: 4(2x + 2) + 12 > 1004(2x + 2) + 12 > 100 For 4(2x + 2) + 12 > 1004(2x + 2) + 12 to have a solution x < -1 which makes 1004(2x + 2) + 12 < 12, BUT 1004(2x + 2) + 12 is supposed to be greater than 100. Perhaps there is a missing operator in the digits of 1004?
83 with 8 remaining 1,004 - 8 = 996 = 12 x 83
1,004 = (1 x 1000) + (0 x 100) + (0 x 10) + (4 x 1)
28 x 101 = 2,828
If x% times 101 = 29 then 101*x/100 = 29 so that x = 29*100/101 = 28.7129