10
10 times larger
The digit in a number that has a greater value than ten times the value of the first digit to its right is the digit in the tens place or higher. For example, in the number 52, the digit 5 (in the tens place) has a value of 50, which is greater than ten times the value of the digit 2 (which is 20). Thus, any digit in a higher place value can potentially meet this criterion.
To determine how many times greater the digit in the ten thousands place is than the digit in the hundreds place, we need to understand the positional value of each digit. The positional value of a digit increases by a factor of 10 as you move from right to left in a number. Therefore, the digit in the ten thousands place is 10 times greater than the digit in the hundreds place.
It is 'base' times greater, that is 10 times greater if you are looking at a decimal number. Two times greater if you are looking at a binary number. Etc etc
In the decimal system, 10 times.
10 times larger
The digit in a number that has a greater value than ten times the value of the first digit to its right is the digit in the tens place or higher. For example, in the number 52, the digit 5 (in the tens place) has a value of 50, which is greater than ten times the value of the digit 2 (which is 20). Thus, any digit in a higher place value can potentially meet this criterion.
In the decimal place value system, each digit is ten times bigger than the digit on its right
The digit in the ten-millions place in the number 123456789 is 1. In the place value system, each place value is 10 times greater than the one to its right. So, the ten-millions place is the fourth digit from the right in a 9-digit number.
To determine how many times greater the digit in the ten thousands place is than the digit in the hundreds place, we need to understand the positional value of each digit. The positional value of a digit increases by a factor of 10 as you move from right to left in a number. Therefore, the digit in the ten thousands place is 10 times greater than the digit in the hundreds place.
If x - y > 0, then x is greater than y.The greater positive number is the one further from zero.Which number is greater can be worked out on a digit by digit basis:To compare numbers starting with the highest place value column compare the digits, moving right a place value column until either all digits have been considered or one digit is higher than the other - the number with the higher digit is the greater number. (If a place value column is empty, its digit value is 0).
When the digit immediately to the right of your target (the place you're rounding to) is 5 or greater.
Compare one digit at a time, from left to right, until you find a digit that is different. The number with the greater digit in this position is the larger number.
It is 'base' times greater, that is 10 times greater if you are looking at a decimal number. Two times greater if you are looking at a binary number. Etc etc
In the decimal system, 10 times.
Oh, dude, it's like super simple. The digit in the thousands place is 10 times greater than the same digit in the hundreds place. So, if you have a 3 in the thousands place, it's like 30 times greater than the 3 in the hundreds place. Math, man, it's wild.
The digit in the hundreds place of the number 365 is 3. In this number, the hundreds place is the third digit from the right. Therefore, 3 represents the hundreds place.