SUVAT Motion Calculator
Solve uniformly accelerated motion problems using SUVAT equations. Compute displacement, velocity, acceleration, and time with automatic unit conversion and step-by-step solutions.
Formulas Used
- v = u + at
- s = ut + ½at²
- v² = u² + 2as
- s = (u + v)t / 2
- t = (v - u) / a
Motion Analysis Details
- - SUVAT equations describe motion with constant acceleration.
- - Requires at least 3 known variables to solve remaining values.
- - Assumes straight-line motion (1D motion).
- - Acceleration remains constant throughout motion.
- - Useful for physics problems like free fall, vehicles, and projectiles.
- Variables Meaning:
- - s → Displacement (distance travelled)
- - u → Initial velocity
- - v → Final velocity
- - a → Acceleration
- - t → Time
- Key Assumptions:
- - Motion is uniformly accelerated.
- - No external forces changing acceleration.
- - Direction is consistent (sign matters).
- Notes:
- - Negative acceleration represents deceleration.
- - Units are automatically converted to SI for calculations.
- - Results are converted back to selected units for display.