1 holds the hundredths place in 0.819
You do nothing. A decimal number does not need a decimal point or any such embellishment. All it needs is that the place value of each digit is ten times the place value of the digit to its right.
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).
It is 1 mile. 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.
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 125, as in the question.
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. It may or may not contain a fractional part. If not, the decimal representation does not require a decimal point. So the decimal for 1 mega is 1 mega. If you want it as a decimal fraction of some other quantity then you need to specify that second quantity.
You do nothing. A decimal number does not need a decimal point or any such embellishment. All it needs is that the place value of each digit is ten times the place value of the digit to its right.
A decimal is simply a way of representing a number so that the place value of any digit is ten times the place value of the digit to its right. So 1 is a decimal number and therefore 1 pint would be a decimal pint.
The binary value 1000 0000 represents the decimal number 128. In binary, each digit's place value doubles from right to left, starting at 1. Therefore, the rightmost digit is 1, representing 2^0, and the leftmost digit is 1, representing 2^7, which equals 128 in decimal.
The 37th digit is 4The 37th digit after the decimal point is 1.The 37th digit is 4The 37th digit after the decimal point is 1.The 37th digit is 4The 37th digit after the decimal point is 1.The 37th digit is 4The 37th digit after the decimal point is 1.
1 mm = 1000 micrometre is written as a decimal. To write a number as a decimal only requires that the place value of each digit is ten times the place value of the digit to its right. The number may or may not have a decimal point, it may or may not have a fractional part.
In the decimal numbering system, where one hundred is written as 100, ten as 10 and one as 1, each digit sits in a place that determines its value. In the written 100, the 1 digit in in the hundreds place, so it represents a value of one hundred. and in 10 the 1 digit is in the place that represents the value ten. Each digit has a place value that relates to how far it is to the left or the right from the decimal point, (although unless there is a significance to the number after the decimal point, it is not always shown).
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 -1, exactly as in the question.
The decimal complement of the number 1 is 8. You can find the complement of any digit by subtracting it from the largest single digit value in the base that you're working in.
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).
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 1.
In the number 21.3, the digit 1 is in the tenths place. This means its place value is 1/10 or 0.1. The place value of a digit in a decimal number is determined by its position relative to the decimal point.