poo in it then eat it
A decimal measurement is simply a way of representing a measurement in such a way that the place value of each digit is ten times that of the digit to its right.
It is 1 foot, exactly as in the question. Decimal refers to counting in tens: it is the way in which we normally represent numbers, with the place value of each digit being ten times the place value of the digit to its right. A decimal representation does not need a decimal point and decimal certainly does not imply the metric or SI system of measurement.
There are several ways to calculate uncertainty. You can round a decimal place to the same place as an uncertainty, put the uncertainty in proper form, or calculate uncertainty from a measurement.
The answer depends on why you move the decimal point to the right. In the context of scientific notation, you increase the exponent by the number of place that the decimal place is moved.
1.4 inch is the decimal equivalent. Decimal is a way of representing numbers so that the place value of each digit is ten times that of the place value of the digit to its right. That applies whatever the system of measurement.
the decimal place in the quotient or product should be based in the decimal place of the given with the least significant figures
A decimal measurement is simply a way of representing a measurement 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 imply a change in the measurement units. So a quantity of joules, to the [unspecified] decimal place is still a quantity of joules. If this is required then you need to specify the units into which the quantity is to be converted.
寸 - Sun - is 3.03cm or a measurement. 位 - I - is a rank or a decimal place.
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 6 decimetres.Expressing a measurement in decimal representation does not imply a change in the measurement units. If this is required then you need to specify the units into which the quantity is to be converted.
significant figure
The decimal system is one of numbers, not of measurement. 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.
They provide you with two numbers after the decimal place for your measurement. They are more precise than decigram balances.
Traditionally, 2 decimal places should be used to record the volume of a 10 ml volumetric flask. Recording the volume 2 decimal places means that you are measuring, or rounding your measurement, to the hundredth decimal place, whereas if you were measuring just 1 decimal place, you'd be measuring the tenth decimal place. When we say 2 decimal places, we mean that there should be two numbers that come after the decimal point, regardless of whether or not there is a number that is standing in front (or visually, to the left) of the 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 decimal representation for 1 mile is 1 mile, exactly as in the question. If you wanted it expressed in terms of some other measurement unit then you should have specified that in the question.
It is 1 foot, exactly as in the question. Decimal refers to counting in tens: it is the way in which we normally represent numbers, with the place value of each digit being ten times the place value of the digit to its right. A decimal representation does not need a decimal point and decimal certainly does not imply the metric or SI system of measurement.
There are several ways to calculate uncertainty. You can round a decimal place to the same place as an uncertainty, put the uncertainty in proper form, or calculate uncertainty from a measurement.