It would be the value of the decimal increased by 30%.
13/26 = 1/2 and the decimal value is 0.5
13.0 Answer "13" is a decimal value IF by "13" you mean 13 in our base-10 numbering system. In this system, the 3 in 13 stands for 3 units, and the 1 in 13 stands for 1 ten. Combining the 1 ten and the 3 units gives 10 + 3 = 13. We also say that 13 is a decimal value because it contains no nondecimal (non-base-10) fractional parts. You could write 13 as 13.0 if you wish. Whole numbers in our base-10/decimal system are always decimal values, by definition. Examples: 13 1/4 is not a decimal value; 13.25 is. 13 2/10 is a decimal value, actually, but not in a decimal representation. 13.2 means the same thing as 13 2/10, but in a decimal representation. 13 1/3 cannot be represented as a pure decimal; it equals 13.3333... (etc.) "13" could be a number representation of a value in a number system other than base 10. For example, 13 is a value in the hexadecimal (base 16) number system. 13 hex = (1x16)+(3x1) = 19.
10/13 as a decimal is a recurring decimal of 6 digits: 0.769230769230... An approximation would be 0.769
A decimal number is simply a way of representing a number in such a way that the place value of each digit is ten times that of the digit to its right. A decimal representation does not require a decimal point. So the required decimal representation is 13, exactly as in the question.
Erika could have used the decimal representation of 13 to find that of 23 by first determining the decimal value of 13. If she wrote it as a decimal (e.g., 13.0), she could then add the decimal equivalent of 10 (1.0) to it, since 23 is 10 more than 13. Thus, 13.0 + 10.0 = 23.0. This method demonstrates how to find the decimal for 23 using her previous work with 13.
13/26 = 1/2 and the decimal value is 0.5
onvert the percentage value to a decimal value since the other number is also a decimal value.
13.0 Answer "13" is a decimal value IF by "13" you mean 13 in our base-10 numbering system. In this system, the 3 in 13 stands for 3 units, and the 1 in 13 stands for 1 ten. Combining the 1 ten and the 3 units gives 10 + 3 = 13. We also say that 13 is a decimal value because it contains no nondecimal (non-base-10) fractional parts. You could write 13 as 13.0 if you wish. Whole numbers in our base-10/decimal system are always decimal values, by definition. Examples: 13 1/4 is not a decimal value; 13.25 is. 13 2/10 is a decimal value, actually, but not in a decimal representation. 13.2 means the same thing as 13 2/10, but in a decimal representation. 13 1/3 cannot be represented as a pure decimal; it equals 13.3333... (etc.) "13" could be a number representation of a value in a number system other than base 10. For example, 13 is a value in the hexadecimal (base 16) number system. 13 hex = (1x16)+(3x1) = 19.
3.3333 repeating
4
10/13 as a decimal is a recurring decimal of 6 digits: 0.769230769230... An approximation would be 0.769
A decimal number is simply a way of representing a number in such a way that the place value of each digit is ten times that of the digit to its right. A decimal representation does not require a decimal point. So the required decimal representation is 13, exactly as in the question.
Erika could have used the decimal representation of 13 to find that of 23 by first determining the decimal value of 13. If she wrote it as a decimal (e.g., 13.0), she could then add the decimal equivalent of 10 (1.0) to it, since 23 is 10 more than 13. Thus, 13.0 + 10.0 = 23.0. This method demonstrates how to find the decimal for 23 using her previous work with 13.
A decimal number is simply a way of representing a number in such a way that the place value of each digit is ten times that of the digit to its right. A decimal representation does not require a decimal point. So the required decimal representation is 1213, exactly as in the question.
The decimal form of that would be 0.50. To find this, all you have to do is take 13 an divide it by 26, as the fraction looks. This will be true for converting any fraction into a decimal.
A decimal number is simply a way of representing a number in such a way that the place value of each digit is ten times that of the digit to its right. A decimal representation does not require a decimal point. So the required decimal representation is 13, exactly as in the question.
65/100 or 13/20