In Hexadecimal "A" is a representation of 10
That would be 3 x 10^14 .
Excess-3 (XS-3) is called a self-complementary code because the code for a digit and its complement (the digit subtracted from 9) can be derived directly from its representation. In XS-3, each decimal digit is represented by a 4-bit binary number that is equivalent to the digit plus three. For example, the XS-3 encoding of the digit '0' is '0011' (which is 3 in binary) and the encoding for '9' is '1100' (which is 12 in binary). When you take the 4-bit binary representation of a digit and its complement, they effectively mirror each other across the halfway point of the code, making the system self-complementary.
An area where candidates seek a single office that represents all voters living in that area is called a "constituency" or a "district."
The root sum is the sum of the digits of a number when repeatedly added together until a single-digit number is reached. For example, the root sum of 123 would be 6 (1+2+3 = 6). It is often used in numerology to derive a single-digit number that represents certain characteristics of the original number.
Imagine a decimal number, for example, 123 (hundred and twenty-three). Each digit has a corresponding place-value; the right-most digit has the place-value 1, the next digit (counting from the right) has the place-value 10, the next digit hast eh place-value 100. The right-most position (where the digit "3" is in this example) is in the position of least value - the least significant position. When several bits represent an integer, the situation is the same, except that the numbers are in base-2 instead of base-10 (each position is worth twice as much as the position to the right). But you still have the concept of place-value, and the digit that represents the 1's position is the "least significant bit".
A digit can either be a finger or toe, or a single entity in a numerical representation.
No. A digit is a single number from 0 to 9
There is no single digit number greater than 9. After 9 is 10, which is a double-digit number.
10
A single digit in a decimal representation can have a place value: an entire number cannot.
6 x 10^10
3.94 x 10^-6
5 x 10^-9
362,880 edit: 3,628,800 edit: Sorry, Whizkid. You included '10', whereas the question clearly stated "single-digit numbers". Now that we think about it, the "10 single digit numbers" must include zero, so the product is zero. But for the digits 1 thru 9, the product is still 362,880 .
Number of 7 digit combinations out of the 10 one-digit numbers = 120.
A decimal number is simply a way of representing a number in such a way that the place value of each digit is ten times that of the digit to its right. A decimal representation does not require a decimal point. So the required decimal representation is 710.
That would be 3 x 10^14 .