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first you look at the first number tell what that number is then you
just find the first digit.
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∙ 11y ago
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What is bigger 0.1666666667 or 0.06666666667?
Look for the first digit that is different. In this case, the first digit after the decimal point. The number that has the larger digit in this position, is larger. If the first digit is the same, compare the second digit with the second digit, the third digit with the third digit, and so forth, until you find a difference.
How do you do integers greatest to least?
Positive integers are greater than negative integers. For positive integers: * The integer with more digits is larger. * If two integers have the same length, compare the first digit. If the first digit is the same, compare the second digit, then the third, etc., until you find a difference. In each case, the integer with the larger digit (at the first position where you find a difference) is the larger one.
What is the smaller number 0.02 or 0.097?
In such cases, you should compare one digit at a time, from left to right, until you find a digit that is different in the two numbers. That is, compare the first digit (after the decimal period) with the first digit, the second digit with the second digit, etc.
What is the quotient of 158535?
You need two numbers to find a quotient.
How do you find the quotient.?
The quotient is the result of dividing two numbers. So if you need to find the quotient of 20 and 5, you would divide 20 by 5. That means that your answer (4) would be the quotient.
Dividing by 1-digit Divisors?
Find the quotient
What is bigger 0.1666666667 or 0.06666666667?
Look for the first digit that is different. In this case, the first digit after the decimal point. The number that has the larger digit in this position, is larger. If the first digit is the same, compare the second digit with the second digit, the third digit with the third digit, and so forth, until you find a difference.
How do you do integers greatest to least?
Positive integers are greater than negative integers. For positive integers: * The integer with more digits is larger. * If two integers have the same length, compare the first digit. If the first digit is the same, compare the second digit, then the third, etc., until you find a difference. In each case, the integer with the larger digit (at the first position where you find a difference) is the larger one.
Find a three digit number that rounds to 440 and includes a digit that is the quotient of 24 and 3?
Assuming you are rounding to the nearest 10, and not, for example, the nearest 220, the number you are looking for is 438.
Is 2.13 bigger or 2.11?
Since the integer part is the same, you need to compare the decimal digits, one at a time.That is, compare the first digit with the first digit; if (as in this case) they are the same, you compare the second digit with the second digit - until you find two digits that are different in the same position.
Which is greater 0.07 or 0.040?
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.
What is the quotient of 100 and 4?
100 divided by 4 is 25.
Find the 3 digit no whose last digit is the square root of the first digit and second digit is the sum of the other two digits?
Ans: 462
What is the smaller number 0.02 or 0.097?
In such cases, you should compare one digit at a time, from left to right, until you find a digit that is different in the two numbers. That is, compare the first digit (after the decimal period) with the first digit, the second digit with the second digit, etc.
What is the quotient of 158535?
You need two numbers to find a quotient.
How do you find the quotient.?
The quotient is the result of dividing two numbers. So if you need to find the quotient of 20 and 5, you would divide 20 by 5. That means that your answer (4) would be the quotient.
Is 0.002 greater or less than 0.0001?
Just compare the digits one by one: compare the first digit after the decimal point with the first digit of the other number, the second digit with the second digit, etc., until you find a digit that is different.
