In the decimal place value system, each digit is ten times bigger than the digit on its right
The largest three-digit even number that can be formed using the digits 3, 4, and 5 is 543. To determine this, we need to consider the possible arrangements of the digits. Since we want to create an even number, the last digit must be 4. The largest possible number for the hundreds place is 5, and the remaining digit, 3, goes in the tens place. Therefore, the largest three-digit even number using the digits 3, 4, and 5 is 543.
The digit of 0 represents the hundreds place
The numbers between 4,000 and 10,000 _ _ _ _ 1st place only can filled by 4, 5, and 6 2nd place only can filled by the other 4 digit 3rd place only can filled by the other 3 digit 4th place only can filled by the other 2 digit So: 3 x 4 x 3 x 2 = 72 numbers The numbers greater than 10,000 5 x 4 x 3 x 2 x 1 = 120 numbers The total is 72 + 120 = 192 numbers can formed.
Oh, dude, let me break it down for you. So, you've got 5 digits to choose from for the hundreds place, then 4 left for the tens place after you've used one for the hundreds, and finally 3 left for the units place after using 2 for the hundreds and tens. Multiply those together and you get 60 possible 3-digit numbers. Easy peasy, lemon squeezy!
It is its face value, which is the place value times the value of the digit.
None, the digits are the same.
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).
To determine which number is greater, we can compare the digits place by place starting from the left. In this case, the first digit after the decimal point is the tenths place. In 4.1, the digit in the tenths place is 1, and in 4.11, the digit in the tenths place is also 1. Since these digits are the same, we then compare the next digit after the tenths place, which is the hundredths place. In 4.1, the hundredths place is 0, and in 4.11, the hundredths place is 1. Therefore, 4.11 is greater than 4.1.
To determine which number is greater between 4.125 and 4.625, we can compare the digits in the tenths place. In 4.125, the digit in the tenths place is 1, while in 4.625, the digit in the tenths place is 6. Since 6 is greater than 1, 4.625 is greater than 4.125.
In the decimal system, 10 times.
I'm greater than one million but less than ten million im an even number none of my digits are less than three no digit is used more than once the sum of the digits in the ones period is twelve the digit in the ten thousands place is equal to the sum of the digits in the tens an hundreds places the digit in the millions place is two more than the digit in the thousands place the digit in the hundred thousands place is twice the digit in the tens place what is the mystery number?
For now, I'll assume for simplicity that the numbers are positive. The number with the greatest amount of integer digits (before the decimal point, if any) is larger. If both numbers have the same number of integer digits, compare each digit in turn until you find one digit that is different. The number with the largest digit in this place is larger. Examples: 1234 is greater than 430, because it has more digits. 125 is greater than 117, because in the first digit they differ (second position from left), it has the greater digit. 0.007 is greater than 0.0009, because in the third digit to the right of the decimal point (the first digit where they differ), it has the greater digit (7 is greater than 0).
yes The way to know is by comparing the numbers' most significant digits, which are the nonzero digits that are farthest to the left with respect to the decimal point. A number is greater if its most significant digit is farther left from the decimal point or closer to the right side of the decimal point. For example, 123.1 is greater than 45.99 because 123.1 has its most significant digit in the hundreds place, the 3rd place left of the decimal point, while the most significant digit of 45.99 is in the tens place. Also, 0.01 is greater than 0.00499 because the most significant digit of 0.01 is closer to the right side of the decimal point (in the hundredths place). In cases like these where the two numbers have their most significant digits in different places, the values of the digits don't matter; the one with the most significant digit farther to the left is always greater. In cases like the posted question, where the most significant digits are in the same place (in this case, the tenths place), the number whose most significant digit has the greater value is the greater number. It doesn't matter how many other digits are to the right of the most significant digit. For example, 0.23 is greater than 0.198574659, because 2 is greater than 1.
Any number that has 4 or 5 digits. A digit in a number is one number place. 1 has 1 digit, 11 has 2 digits, 111 has 3 digits, and so on.
There are 5 digits in the number 67392. Each digit represents a place value in the number, with the leftmost digit being the ten-thousands place and the rightmost digit being the ones place. In this case, the digits are 6, 7, 3, 9, and 2.
645 is a 3-digit number. A single digit in a number can have a place value. A number with several digits cannot.
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