Only 1004.
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?
1004
4*1/1004*1/1004*1/1004*1/100
YES !!!!! Think of all numbers to be rational except, those decimal numbers tha go to infinity AND there is no regular order in the decimal digits. pi = 3.141592.... is the most well known irrational number. However. 123.123123123..... Is rational because the decimal digits are in a regular order.
31.685959
Four - zeros between significant digits are significant.
The possible 4 digit codes using the numbers 0-9 are every number between 0 and 9999. For numbers that have less than 4 digits, just precede the number with 0's. 10,000 possibilities
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?
50% of 1004: = 50% x 1004 = 0.50 x 1004 = 502
0
-1004
1004
The positive integer factors of 1004 are: 1, 2, 4, 251, 502, 1004
MIV = 1004MIV = 1004MIV = 1004MIV = 1004MIV = 1004MIV = 1004MIV = 1004MIV = 1004MIV = 1004
4*1/1004*1/1004*1/1004*1/100
1, 2, 4, 251, 502, 1004.
1004 millibars is approximately equal to 29.65 inches of mercury.