Home
Back
SUVAT Equation:
| From: | To: |
The SUVAT equations are a set of equations that describe the motion of objects under constant acceleration. This particular equation calculates displacement (s) from initial velocity (u), final velocity (v), and time (t).
The calculator uses the SUVAT equation:
Where:
Explanation: This equation calculates the displacement by taking the average of the initial and final velocities and multiplying by the time elapsed.
Details: Calculating displacement is fundamental in kinematics for understanding an object's motion, determining position changes, and solving various physics problems.
Tips: Enter velocities in m/s and time in seconds. Time must be positive (t > 0). The calculator will compute the displacement in meters.
Q1: When is this equation valid?
A: This equation is valid only when acceleration is constant. For variable acceleration, more complex methods are needed.
Q2: What's the difference between distance and displacement?
A: Displacement is a vector quantity (has magnitude and direction), while distance is scalar (magnitude only).
Q3: Can I use this for vertical motion?
A: Yes, this equation works for any linear motion with constant acceleration, including vertical motion under gravity.
Q4: What if acceleration isn't constant?
A: You would need to use calculus-based methods or numerical integration to determine displacement.
Q5: How accurate is this calculation?
A: The calculation is mathematically exact for constant acceleration scenarios, but real-world measurements may have experimental errors.