Meters (m) to US Survey Feet (ft-us) conversion

What is meters?

Meters are fundamental for measuring length, and understanding its origins and applications is key.

Defining the Meter

The meter ($m$) is the base unit of length in the International System of Units (SI). It's used to measure distances, heights, widths, and depths in a vast array of applications.

Historical Context and Evolution

• Early Definitions: The meter was initially defined in 1793 as one ten-millionth of the distance from the equator to the North Pole along a meridian through Paris.
• The Prototype Meter: In 1799, a platinum bar was created to represent this length, becoming the "prototype meter."
• Wavelength of Light: The meter's definition evolved in 1960 to be 1,650,763.73 wavelengths of the orange-red emission line of krypton-86.
• Speed of Light: The current definition, adopted in 1983, defines the meter as the length of the path traveled by light in a vacuum during a time interval of 1/299,792,458 of a second. This definition links the meter to the fundamental constant, the speed of light ($c$).

Defining the Meter Using Speed of Light

The meter is defined based on the speed of light in a vacuum, which is exactly 299,792,458 meters per second. Therefore, 1 meter is the distance light travels in a vacuum in $\frac{1}{299,792,458}$ seconds.

$$1 \text{ meter} = \frac{\text{distance}}{\text{time}} = \frac{c}{\frac{1}{299,792,458} \text{ seconds}}$$

The Metric System and its Adoption

The meter is the base unit of length in the metric system, which is a decimal system of measurement. This means that larger and smaller units are defined as powers of 10 of the meter:

• Kilometer ($km$): 1000 meters
• Centimeter ($cm$): 0.01 meters
• Millimeter ($mm$): 0.001 meters

The metric system's simplicity and scalability have led to its adoption by almost all countries in the world. The International Bureau of Weights and Measures (BIPM) is the international organization responsible for maintaining the SI.

Real-World Examples

Meters are used in countless applications. Here are a few examples:

• Area: Square meters ($m^2$) are used to measure the area of a room, a field, or a building.

  For example, the area of a rectangular room that is 5 meters long and 4 meters wide is:

  $$\text{Area} = \text{length} \times \text{width} = 5 \, m \times 4 \, m = 20 \, m^2$$

• Volume: Cubic meters ($m^3$) are used to measure the volume of water in a swimming pool, the amount of concrete needed for a construction project, or the capacity of a storage tank.

  For example, the volume of a rectangular tank that is 3 meters long, 2 meters wide, and 1.5 meters high is:

  $$\text{Volume} = \text{length} \times \text{width} \times \text{height} = 3 \, m \times 2 \, m \times 1.5 \, m = 9 \, m^3$$

• Speed/Velocity: Meters per second ($m/s$) are used to measure the speed of a car, a runner, or the wind.

  For example, if a car travels 100 meters in 5 seconds, its speed is:

  $$\text{Speed} = \frac{\text{distance}}{\text{time}} = \frac{100 \, m}{5 \, s} = 20 \, m/s$$

• Acceleration: Meters per second squared ($m/s^2$) are used to measure the rate of change of velocity, such as the acceleration of a car or the acceleration due to gravity.

  For example, if a car accelerates from 0 $m/s$ to 20 $m/s$ in 4 seconds, its acceleration is:

  $$\text{Acceleration} = \frac{\text{change in velocity}}{\text{time}} = \frac{20 \, m/s - 0 \, m/s}{4 \, s} = 5 \, m/s^2$$

• Density: Kilograms per cubic meter ($kg/m^3$) are used to measure the density of materials, such as the density of water or the density of steel.

  For example, if a block of aluminum has a mass of 2.7 kg and a volume of 0.001 $m^3$, its density is:

  $$\text{Density} = \frac{\text{mass}}{\text{volume}} = \frac{2.7 \, kg}{0.001 \, m^3} = 2700 \, kg/m^3$$

What is us survey feet?

What is US Survey Feet?

US Survey Feet is a unit of length used in the United States for land surveying. It is slightly different from the international foot. Understanding its origin and applications is crucial for accurate land measurements and legal descriptions.

Origin and Definition

The US Survey Foot (ftUS) is defined based on the Mendenhall Order of 1893, which related customary units to the metric system using the meter. At that time, it was defined as:

1 US Survey Foot = $\frac{3937}{1200}$ meters

This value equates to approximately 0.3048006096 meters. This differs slightly from the international foot which is exactly 0.3048 meters. The difference, while seemingly small (2 parts per million), can accumulate significantly over large distances, impacting land boundaries and area calculations.

The Issue & Readjustment

The difference between the international foot and the US survey foot caused discrepancies, especially in states that relied heavily on the Public Land Survey System (PLSS). Over time, states have addressed this issue in various ways:

• Many states have officially adopted the international foot for all new surveys.
• Some states continue to use the US Survey Foot. It's crucial to know which definition is in use for any particular survey or land description.
• Conversion factors are often provided in legal documents to clarify which foot is being used.

For more information about each state's definitions of feet, please read NOAA's definition of US Survey foot.

Usage and Real-World Examples

While its use is declining, the US Survey Foot is still relevant in some contexts, especially when dealing with older surveys and legal descriptions. Understanding its magnitude helps grasp spatial relationships:

• Property Boundaries: In states where it is still used, a land description stating a lot is 100 US Survey Feet wide means it is approximately 30.48006096 meters wide.
• Land Area Calculations: Area calculations, like acres, derived from measurements in US Survey Feet will differ slightly from those derived from international feet.
• Geographic Information Systems (GIS): GIS databases may contain data referenced to US Survey Feet, requiring proper transformation when integrating with data using the international foot.

Interesting Facts

• The slight difference between the two definitions of a foot has caused legal disputes related to property boundaries.
• The National Geodetic Survey (NGS) provides tools and resources for converting between the US Survey Foot and the international foot.