The value of a digit depends on its position as well as its face value.
compare the digits to compare the value of the change 67,335 to 47,335
No. It has four digits and each one of these is in a different place. No. It has four digits and each one of these is in a different place. No. It has four digits and each one of these is in a different place. No. It has four digits and each one of these is in a different place.
An entire number cannot have a place value. It is the property of each of its digits, taken one at a time.
In place value, a period is each group of three digits separated by commas in a multidigit number.
three decimal four
I assume you mean "binary digits". The normal numbers we use are base-ten, using ten different digits (0-9). Also, each place-value is worth ten times as much as the place-value to the right of it. Binary numbers follow a similar principle, but are based on the number 2. That is, there are only two digits (0 and 1), and each place-value is worth twice as much as the number to the right.
It is its positional place value within a number
compare the digits to compare the value of the change 67,335 to 47,335
No. It has four digits and each one of these is in a different place. No. It has four digits and each one of these is in a different place. No. It has four digits and each one of these is in a different place. No. It has four digits and each one of these is in a different place.
An entire number cannot have a place value. It is the property of each of its digits, taken one at a time.
If you use each number once, there are six combinations.
In place value, a period is each group of three digits separated by commas in a multidigit number.
three decimal four
There are 26 different letters that can be chosen for each letter. There are 10 different numbers that can be chosen for each number. Since each of the numbers/digits that can be chosen for each of the six "spots" are independent events, we can multiply these combinations using the multiplicative rule of probability.combinations = (# of different digits) * (# of different digits) * (# of different digits) * (# of different letters) * (# of different letters) * (# of different letters) = 10 * 10 * 10 * 26 * 26 * 26 = 103 * 263 = 1000 * 17576 = 17,576,000 different combinations.
3201
Because it has a different value
Since there are no numbers and no underlined digits, there cannot be any answer!