## The U.S. and the Metric System

Have you ever noticed that the standard system of measurement tends to change when you exit the United States? Distance is measured in kilometers instead of miles, clothing sizes are often measured in centimeters rather than inches, and volume is measured in liters instead of ounces.

Although English is spoken in many countries across the globe, when it comes to measurement, it can often feel like Americans speak a different language from the rest of the world. You may think that this is an overstatement. There must be some other countries that don’t use the metric system, right? However, in reality, there are only three countries in the entire world that don’t use the metric system — and the U.S. is one of them!

Considering how often America interacts with other countries in trade and commerce, and how important crucial measurements are, it may seem strange that it hasn’t adopted the same system as everyone else. So why doesn’t the U.S. use the metric system?

### What Is the Metric System?

For most Americans, the metric system is one of things you’ve probably never thought about. Before we can understand why the U.S. does not use the metric system, it’s important that we understand what the metric system is, and how it differs from the U.S. customary units.

The metric system, also known as the International System of Units (SI, abbreviated from the French S* ystème International)*, is built on three main units: meters, liters and grams. Since the metric system is a base 10 system of measurement, each succeeding unit of length, mass, or volume is 10 times larger than the previous one. The names for these units are the combination of a prefix, which indicates the size of the unit, and a base, which tells you whether the unit is measuring length, mass, volume.

Confused? Stick with us. Let’s break it down further.

In the metric system, meters are the base unit for measuring length. That means each preceding or succeeding unit will contain the base name, “meter,” along with a prefix that communicates its size. (For context, a meter equals roughly three feet, three inches.)

So a decimeter is 10 times smaller than a meter, a centimeter is 100 times smaller than a meter, and a millimeter is 1,000 times smaller than a meter. Conversely, a dekameter is 10 times larger than a meter, a hectometer is 100 times larger than a meter, and a kilometer is 1,000 times larger than a meter.

Although we could easily measure the length of a football field in meters, it would not make as much sense to measure the length of a computer in meters. Since a computer is less than one meter long, we would use a smaller metric unit, such as centimeters or millimeters, to express its length. The same rules apply when measuring the mass and volume of matter, using grams or liters, respectively.

### What Are the U.S. Customary Units?

Now that we’ve established how the metric system works, it’s important to understand the difference between the metric system and the U.S. customary units.

The U.S. system also measures length, mass and volume, but with a different set of units, and without following a “base” system of measurement.

Instead, when measuring the volume of a liquid using U.S. customary units, we use fluid ounces, cups, pints, quarts and gallons — with fluid ounces being the smallest unit of measuring volume and gallons the largest unit, respectively. One gallon is equal to four quarts, which is equal to eight pints, which is equal to 16 cups, which is equal to 128 fluid ounces. Simple, right?

Since there is no “base” rule for U.S. customary units, volume, mass and distance are all measured differently under this system. The U.S. customary units for measuring the mass of an object are ounces, pounds and tons. In this category of measurement, the smallest unit of mass is an ounce, the next smallest unit is a pound, and the largest unit of mass is a ton. Specifically, one pound is equal to 16 ounces, one ton is equal to 2,000 pounds, and one ton is also equal to 32,000 ounces.

The last type of measurement under the U.S. customary units is length, which is measured in inches, feet, yards and miles. Under this system, the smallest unit of length is inches and the largest unit of length is miles, respectively. Since this is arguably the most commonly used measurement in everyday life, most U.S. residents know that there are 12 inches in one foot, three feet in one yard, and 1,760 yards in one mile.

Bottom line? Though both systems of measurement serve the exact same purpose, U.S. customary units are entirely different from the metric system. The only question is why the U.S. insists on its way. Plus: More measuring tips and tricks.

### Why Doesn’t the U.S. Use the Metric System?

As of today, the only countries that still don’t use the metric system are the U.S., Myanmar and Liberia. Because it’s time-consuming and tedious to translate U.S. customary units into the metric system and vice versa, having two competing systems is not ideal for global communication and cooperation. So why hasn’t the U.S. switched over?

The answer dates to the 18th century.

In 1790, France conceived the metric system to streamline commerce, reduce fraud and clear up confusion that permeated the country in the absence of a standard system of measurement. The first step in creating this system was setting a universal guide for measuring a meter.

Since the French scientists wanted to be as precise as possible and enable others to emulate their process, they decided to derive the measurements from the earth’s circumference — a well-known dimension at the time. To do this, scientists selected a longitudinal segment of the Earth that ran between the northern and southern parts of France, and carefully divided it to create the meter.

The resulting measurement system, now known as the metric system, was extremely innovative and attractive to the international community. However, since the metric system was rooted in a portion of French land, the United States decided not to adopt this system.

In the 19th century, as the rest of the world began to accept the metric system, Congress proposed that the U.S. transition to this international system as well. However, by that point American industrialists had stocked their factories with equipment based on the U.S. customary units. To prevent a costly overhaul of their equipment, these industrialists used their influence to stop Congress from adopting the metric system throughout the 19th and 20th centuries.

Today, America still teaches U.S. customary units in its schools, although many scientists and organizations endorsed the ease of the internationally-used metric system. America’s dedication to the U.S. customary units is not the only convention that the country has held onto throughout the years.