number 8 (without decimals, the second number from the end is always in the ten's place)
40
In the decimal place value system, each digit is ten times bigger than the digit on its right
It is its face value, which is the place value times the value of the digit.
For me I think it is conceptually easier to think about the probability that the number will contain the digit seven (and the probability that it does not contain the digit 7 is simply one minus the probability that it does). P(number will contain 7) = P(number is in the seven hundreds) + P(number is not in seven hundreds)*[P(number is in the X hundred seventies)+P(number is not in the X hundred seventies)*P(number ends in seven)] So essentially I am considering all of the numbers in the range that start with seven (i.e., are in the seven hundreds), then all of the numbers in the range that aren't in the seven hundreds but have a 7 in the tens place (i.e., the 170s, 270s, etc., and finally all the numbers that don't have a 7 in the hundred or tens place, but that end in 7). Plugging the numbers into my formula above, I get (100/900)+(800/900)*((10/100)+(90/100)(1/10)) = 7/25 is probability that the number does contain a 7, and 1-(7/25)=18/25 is probability that it does not.
It is the digit of 0 that represents the hundreds place value.
6
6.
3
The digit in the hundreds place in the number 2378.91 is the digit 3.
There are 349 hundreds in 34,972. To determine this, we look at the digit in the hundreds place, which is 4. This digit represents 400, as it is in the hundreds place. Therefore, there are 349 hundreds in the number 34,972.
3 is in the hundreds place2 is in the tens place8 is in the ones place
The digit in the hundreds place in the number 463 is the digit 4.
In the number 4,567, the place value of the 4 is in the hundreds place. In the place value system, each digit's position determines its value based on powers of 10. The hundreds place represents the digit's value multiplied by 100.
In the number 6397, the digit in the hundreds place is 9. This is because the hundreds place is the third digit from the right in a four-digit number. In 6397, the hundreds place is occupied by the digit 9.
The hundreds place is a position in a number representing the digit that is multiplied by 100. For example, in the number 356, the digit 3 is in the hundreds place. The hundredths place is two positions to the right of the decimal point and represents a value that is 1/100th of the whole number. In the number 0.56, the digit 5 is in the hundredths place. The hundreds place represents a larger value than the hundredths place because it is multiplied by 100, while the value in the hundredths place is divided by 100.
In the hundreds place, the digit "3" represents a value of 300. In the decimal system, each place value represents a power of 10, with the hundreds place being 10^2 or 100. Therefore, when the digit "3" is in the hundreds place, it signifies three hundreds, or 300.