Suspension Geometry Calculator

Suspension Geometry Calculator — Calculate Camber, Caster, Toe & More

Calculate your vehicle’s suspension geometry with our comprehensive calculator. Determine camber, caster, toe angles, and other critical suspension parameters for optimal handling and tire wear.

Step 1: Vehicle & Alignment Basics

Vehicle Type

Wheel Size (inches)

Tire Width (mm)

Ride Height Adjustment (mm)

0 mm

Understanding Suspension Geometry

Suspension geometry refers to the angles and dimensions that determine how your vehicle’s wheels interact with the road. Proper geometry is critical for handling, tire wear, and stability.

Step 2: Alignment Angles

Camber Angle (degrees)

-0.5°

Caster Angle (degrees)

4.5°

Toe Angle (degrees)

0.1°

Toe Measurement Unit

Show alignment comparison table

Show angle visualization chart

About Alignment Angles

Camber affects tire wear and cornering grip. Caster affects steering feel and straight-line stability. Toe affects tire wear and steering response. Each vehicle type requires different optimal settings.

Suspension Geometry Results

Summary

Alignment Comparison

Angle Analysis

Overall Geometry Status

Good

Based on -0.5° camber, 4.5° caster, and 0.1° toe

Camber Angle

-0.5°

Caster Angle

4.5°

Toe Angle

0.1°

Scrub Radius

18.2 mm

Vehicle Alignment Comparison

Vehicle Type	Camber	Caster	Toe	Status

Angle Impact Analysis

Suspension Geometry Formulas

Key Suspension Calculations

Scrub Radius = (Wheel Offset + (Tire Width/2)) – (Kingpin Inclination × Wheel Radius). Camber Gain = (Wheel Travel × Camber Curve) / Suspension Travel. Proper geometry calculations ensure optimal tire contact patch and handling characteristics.

Need Professional Suspension Analysis?

Connect with our automotive experts for detailed suspension geometry analysis, alignment optimization, and handling solutions for your vehicle or race car setup.

Get Professional Analysis