Slope Inclination Calculator

Gradient · Slope · Angle · Elevation · Road Engineering · Drainage

Slope Calculator

Height difference between two points
Horizontal distance (not slant distance)

Formulas & References

Gradient from Height and Distance:
i = Δh / L [-]
Δh = Elevation difference; L = Horizontal distance; i = dimensionless ratio
Gradient in Percent:
i [%] = (Δh / L) · 100 [%]
Example: i = 0.05 → 5% grade or 1:20
Inclination Angle:
α = arctan(i) [rad] or [°]
α ≈ i for small angles (i < 0.1)
Elevation Difference:
Δh = i · L [m]
Calculation for known gradient and distance
Distance from Height:
L = Δh / i [m]
Calculation for known gradient and elevation
Typical Grade Values (Road Engineering / Drainage)
0.3% (1:333)Flat road, minimal grade
1–2%Normal road, drainage, typical longitudinal grade
2–4%Road in slope, highway exit
4–6%Mountain road, steep drainage
8–10%Very steep road, mountain path
>10%Extreme slope, specialized technique required
Example (Road Engineering):
• Elevation difference Δh = 5 m
• Horizontal distance L = 100 m
• Gradient i = 5 / 100 = 0.05 = 5% = 1:20
• Angle α = arctan(0.05) ≈ 2.86°


Technical Background

Slope and Inclination – Fundamentals of Surveying and Road Engineering

Slope (inclination) describes the steepness or grade of terrain, a road, or a drainage system. It is expressed as a dimensionless ratio and is fundamental to engineering projects:

  • Road Engineering: Longitudinal and transverse grades for safe driving and drainage
  • Drainage: Water discharge in channels, pipes, roof drainage
  • Surveying: Documentation of elevation differences and terrain
  • Civil Engineering: Foundations, slopes, ramps
Gradient: Definition and Units

Gradient is expressed in several ways:

i = Δh / L (dimensionless ratio)
i [%] = (Δh / L) · 100 (percent)
1 : n = L / Δh (ratio notation, e.g., 1:20 = 5%)
Important Distinctions
  • Horizontal Distance L: The projection on the horizontal plane (used for gradient calculation)
  • Slant Distance s: The actual distance along the inclined surface (s = √(L² + Δh²))
  • Inclination Angle α: The angle relative to the horizontal
Typical Grade Values (Practice Examples)
Application Gradient i Percent Angle α
Flat road (minimal grade) 0.003 0.3% ≈0.17°
Normal road longitudinal grade 0.02–0.04 2–4% ≈1.1–2.3°
Roof drain 0.05–0.10 5–10% ≈2.9–5.7°
Mountain road / Alpine pass 0.10–0.15 10–15% ≈5.7–8.5°
Very steep road 0.20 20% ≈11.3°
Drainage: Minimum Grade per DIN 1986
Pipe Type / Application Minimum Grade Typical
House sewage line (DN 100–150 mm) 0.5% (1:200) 1–2%
Downspout / Roof drainage Vertical or ≥2% 2–5%
Road drainage (open channel) ≥0.3% 0.5–2%
Stormwater line (road) ≥0.5% (1:200) 1–3%
Approximation for Small Angles

For small gradients (i < 0.1, i.e., < 10%), the approximation holds:

tan(α) ≈ α [rad] ≈ i

This means: A 5% grade (0.05) corresponds approximately to an angle of 0.05 rad ≈ 2.86°. The error is < 1% for i < 0.2.

Slant Distance vs. Horizontal Distance

In surveying it is important to note:

Slant distance: s = √(L² + Δh²) = L · √(1 + i²)
For small i: s ≈ L · (1 + i²/2)

Example: L = 100 m, Δh = 5 m (i = 5%) → s = √(10000 + 25) ≈ 100.12 m (difference: 0.12 m = 0.12%)

Note for Practice: Gradients are often marked on construction drawings with:
• i = 2% or i : 1 = 1:50 (both mean the same)
• Arrows with percent value or ratio
• Elevation annotations (absolute elevations of points)
For precise calculations, elevation data from surveying should be used.
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