1. What is the Wheelbase of Vehicle from Percentage Anti Dive Calculation?

The Wheelbase of Vehicle from Percentage Anti Dive calculation determines the distance between the center point of the front wheel and the center point of the rear wheel of a vehicle based on anti-dive characteristics, braking distribution, suspension geometry, and center of gravity height.

2. How Does the Calculator Work?

The calculator uses the formula:

Where:

• \( b \) — Wheelbase of Vehicle (m)
• \( \%AD_f \) — Percentage Anti Dive Front (%)
• \( \%B_f \) — Percentage Front Braking (%)
• \( SVSA_h \) — Side View Swing Arm Height (m)
• \( SVSA_l \) — Side View Swing Arm Length (m)
• \( h \) — Height of CG above Road (m)

Explanation: This formula calculates the wheelbase by considering the anti-dive percentage, front braking distribution, suspension geometry ratios, and center of gravity height.

3. Importance of Wheelbase Calculation

Details: Accurate wheelbase calculation is crucial for vehicle stability, handling characteristics, suspension design, and optimizing anti-dive properties during braking.

4. Using the Calculator

Tips: Enter all values in appropriate units (meters for lengths, percentage for ratios). All values must be positive numbers greater than zero.

5. Frequently Asked Questions (FAQ)

Q1: What is anti-dive in vehicle suspension?
A: Anti-dive is a suspension characteristic that prevents the front of the vehicle from diving downward during hard braking, maintaining better vehicle stability and control.

Q2: How does wheelbase affect vehicle performance?
A: Wheelbase affects vehicle stability, turning radius, ride comfort, and weight distribution. Longer wheelbases generally provide better stability at high speeds.

Q3: What is the typical range for wheelbase in passenger vehicles?
A: Wheelbase typically ranges from 2.4 to 3.2 meters for passenger vehicles, with variations based on vehicle type and size.

Q4: How does suspension geometry affect anti-dive characteristics?
A: Suspension geometry, particularly the swing arm height and length ratios, directly influences how much the vehicle resists diving during braking.

Q5: Why is center of gravity height important in this calculation?
A: The height of the center of gravity affects weight transfer during braking, which influences the anti-dive characteristics and overall vehicle dynamics.