When you divide 1387 by 2 you get a remainder of 1, so it is odd. A number ending (least significant digit) in a odd number digit like 1, 3, 5, 7, and 9 is odd. A number ending (least significant digit) in a even number digit like 0, 2, 4, 6, and 8 is even.* * * * *Nearly correct!An integer ending in 1, 3, 5, 7 and 9 is odd and an integer ending in 0, 2, 4, 6, 8 is even. The concept of odd and even does not apply to decimal fractions.When you divide 1387 by 2 you get a remainder of 1, so it is odd. A number ending (least significant digit) in a odd number digit like 1, 3, 5, 7, and 9 is odd. A number ending (least significant digit) in a even number digit like 0, 2, 4, 6, and 8 is even.
A decimal number has a base of 10, meaning that from the least significant to the most significant digit in a number the value of the digit increases by a factor of 10. Thus the least significant digit has a value of the digit multiplied by 10 raised to power 0, the next digit to the left (the tens digit) has a value of the digit multiplied by 10 raised to power 1, and so on. If you are considering decimal numbers, then the first digit to the right of the decimal point has a place value of 10 raised to power -1, the next digit to the right has a place value of 10 raised to power -2 and so on. In decimal system (unlike the Roman Numerals) the length of the number also signifies the magnitude of the number and there is a place value for each digit (again unlike the Roman Numerals).
1.019 is less than 1.02, because the most significant digit that is different is the hundredths, which is lower in 1.019.
20%. You divide 1840 by 9200 to get .20, which is 20%.
I think you are talking about three numbers 743, 142, and 986425. If the least significant digit in a number is odd, the number is odd. If the least significant digit in a number is even, the number is even. You can also divide the number by 2 and if two goes into the number evenly without a remainder then the number is even. If there is a remainder, the number is odd.
9.2x10^3 has 2 significant figures, or 9200 (also 2 sig figs)
The number that comes after 9199 is 9200. In the decimal number system, each digit position represents a power of 10. So when you increment the last digit of 9199 by 1, you get 9200.
Yes A whole number is even if its least significant digit is even. The least significant digit of a whole number is the digit in the "ones place". In other words, if the digit at the far right is 0, 2, 4, 6 or 8, the number is even.
The sum of numbers can have as many significant figures as the number with the least significant figures in the original numbers. For example, if you add numbers with 3, 4, and 5 significant figures, the sum will have 3 significant figures.
40 percent of 9200 = 368040% of 9200= 40% * 9200= 40%/100% * 9200= 40 * 92= 3680
Add the least significant digits (carry any thing greater than the base)Add the carry and the next least most significant digits, (carry anything greater than the base)Add the third most significant digits, (carry anything greater than the base)Add the carry to the most significant digit.Done
When you divide 1387 by 2 you get a remainder of 1, so it is odd. A number ending (least significant digit) in a odd number digit like 1, 3, 5, 7, and 9 is odd. A number ending (least significant digit) in a even number digit like 0, 2, 4, 6, and 8 is even.* * * * *Nearly correct!An integer ending in 1, 3, 5, 7 and 9 is odd and an integer ending in 0, 2, 4, 6, 8 is even. The concept of odd and even does not apply to decimal fractions.When you divide 1387 by 2 you get a remainder of 1, so it is odd. A number ending (least significant digit) in a odd number digit like 1, 3, 5, 7, and 9 is odd. A number ending (least significant digit) in a even number digit like 0, 2, 4, 6, and 8 is even.
But according to the rules of significant figures, the least number of significant figures in any number of the problem determines the number of significant figures in the answer which, in this case, would be 11.
2500 is the least whole number that rounds to 3000 because the last significant digit is 5.
All digits are significant in this case. Any digit after a decimal point is a significant digit.
A decimal number has a base of 10, meaning that from the least significant to the most significant digit in a number the value of the digit increases by a factor of 10. Thus the least significant digit has a value of the digit multiplied by 10 raised to power 0, the next digit to the left (the tens digit) has a value of the digit multiplied by 10 raised to power 1, and so on. If you are considering decimal numbers, then the first digit to the right of the decimal point has a place value of 10 raised to power -1, the next digit to the right has a place value of 10 raised to power -2 and so on. In decimal system (unlike the Roman Numerals) the length of the number also signifies the magnitude of the number and there is a place value for each digit (again unlike the Roman Numerals).
A decimal number has a base of 10, meaning that from the least significant to the most significant digit in a number the value of the digit increases by a factor of 10. Thus the least significant digit has a value of the digit multiplied by 10 raised to power 0, the next digit to the left (the tens digit) has a value of the digit multiplied by 10 raised to power 1, and so on. If you are considering decimal numbers, then the first digit to the right of the decimal point has a place value of 10 raised to power -1, the next digit to the right has a place value of 10 raised to power -2 and so on. In decimal system (unlike the Roman Numerals) the length of the number also signifies the magnitude of the number and there is a place value for each digit (again unlike the Roman Numerals).