Question: Find the point on the line $y = -2x + 5$ closest to $(1, 1)$, representing the optimal sensor placement along a meltwater channel. - RTA

Understanding the Context

Recent digital behavior patterns show rising engagement with spatial data modeling and environmental tech in U.S. scientific communities. Rising concerns about climate monitoring, glacial retreat, and hydrological modeling have intensified the demand for precise sensor network coordinates. Alongside increasing investments in geospatial AI and remote sensing infrastructure, professionals routinely ask how to mathematically minimize signal lag and environmental noise by placing sensors on optimal geometric footing. This specific query—finding the closest point on a line—serves as a foundational step in energy-efficient, high-precision deployment planning, making it increasingly relevant across environmental engineering, agriculture tech, and disaster prediction teams.

How the Geometry Actually Works

Mathematically, the shortest distance from a point to a straight line occurs along the perpendicular dropped from the point to the line—a well-established concept in coordinate geometry. For the line $y = -2x + 5$, the slope is $-2$, so the perpendicular line has slope $\frac{1}{2}$. Using point-slope form with $(1, 1)$, the perpendicular line is:

$$ y - 1 = \frac{1}{2}(x - 1) \Rightarrow y = \frac{1}{2}x + \frac{1}{2} $$

Key Insights

To find the exact intersection point—the optimal sensor site—set the two equations equal:

$$ -2x + 5 = \frac{1}{2}x + \frac{1}{2} $$

Solve for $x$:

$$ -2x - \frac{1}{2}x = \frac{1}{2} - 5 \Rightarrow -\frac{5}{2}x = -\frac{9}{2} \Rightarrow x = \frac{9}{5} = 1.8 $$

Substitute $x = 1.8$ into $y = -2x + 5$ to find $y$:

Final Thoughts

$$ y = -2(1.8) + 5 = -3.6 + 5 = 1.4 $$

The point $(1.8, 1.4)$, or written as a fraction $(9/5, 7/5)$, is the geometric closest location on the meltwater channel line to the observation point $(1, 1)$. This precise