Why is the decimal point important to the value in the metric system?
In science, decimals are important, as exact measurements are required. In the metric system, because every unit is a multiple of 10 in some way, decimals are especially important for very easy conversion. As an example, one million and five milligrams is equal to 1000.005 grams.
The question is poorly stated: the point being uncertain as there is no such thing as "metric fractions". My best guess would be that the question is "How are fractions expressed in the metric system?". If so, here is the answer: The metric system is a decimal system. Therefore, all measurements, including fractional parts ("fractions") of its units, are always expressed as decimals.
If you wanted to measure the distance from point a to point b which unit of the metric system would yousee?
The decimal point is important, when dealing with money, because it differentiates $500 from $5.00. After the decimal point there will be two digits, these two digits are the number of cents (in America). The number in front of the decimal point is the number of dollars. It is very important that you put the decimal point in the right spot especially when writing checks.
Since it is a base 10 decimal system for all units it is much simpler to convert from one unit to another, a simple matter of moving the decimal point. i.e. 500 grams is 0.5 kilograms, 20 kilogrames is 0.02 metric tons Converting imperial measures requires more complicated math, ounces to pounds, pounds to tons etc.
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.
so we can measure your head ================ Because it's easier to use. Every unit is divisible by 10. It's designed for used with the decimal point. The last I heard, there are only 3 countries (U.S., Liberia, and Burma) in the world that don't use the Metric system. It is used exclusively in science because of the fact it is easier to use. Even the U.S. uses the metric system in science and medicine.
It is better, the metric system is an improvement over the English system in three major points: 1. One unit of measurement for each physical quantity. No matter from which other quantities of the SI system derived, yields always the same unit. 2. Scalability by prefixes - combinations of prefix and unit make for a plethora of convenient combined units. 3. Decimal system - fractions are expressed in decimal notation. Not only makes this the…
Because the units are multiples of ten, they can easily be calculated using our base-ten number system, and expressed in interchangeable terms by simply moving the decimal point (no calculation is required, as in changing miles to feet). The metric (SI) system is in use in more areas of the world than the others, including the English units of measure still widely in use in the US.
The metric system is based on 10 because we operate in base 10. This means that units can be changed by simply moving the decimal point, as 1 m = .001 km = 100 cm. This also allows scientific notation to be used easily, as you simply need to change the exponent. For example, 6.2 * 1023 mm = 6.2 * 1020 m.
On the 15th February 1971 the United Kingdom adopted a decimal currency system. This is a math term meaning numbers based on the number ten. Here are some sentences. The decimal point can be moved when you divide. How many numbers should you put after the decimal point? We use the base ten, or decimal, system in mathematics. Decimals are related to fractions Answers were put in decimal form.
The metric system is the international system of measurement. It was designed with several goals in mind. Neutral and universal Any laboratory can make a model of the base units. Starting with length, the meter was determined by the distance between two lines of latitude. This can be measured at any location on earth with the proper instruments. Once the length is established, a cube can be constructed that is 1/10 km on each edge…