⚽ How to Calculate Time to Stop with Constant Deceleration | Soccer Ball Motion EXAMPLE Explained!

In this quick biomechanics and physics lesson, we analyze the motion of a soccer ball rolling on the field under constant deceleration. Using basic kinematic equations, we calculate how long it takes for the ball to come to a complete stop when its velocity and acceleration are known.

🔹 Problem Setup:
Initial velocity: 4 m/s
Constant acceleration: –0.3 m/s²
Final velocity: 0 m/s

🔹 What You’ll Learn:
Understanding negative acceleration (deceleration)
Applying the kinematic formula: a = (v₂ – v₁) / t
Solving for time to stop (t = 13.3 s)
Real-world application of linear motion in sports biomechanics

📘 Ideal for students studying biomechanics, physics, kinesiology, or sports science, especially those learning how motion equations apply to real-life sports examples.

#Biomechanics #PhysicsProblems #LinearMotion #Deceleration #Kinematics #SportsScience #SoccerPhysics #HumanMovement #BiomedicalEngineering

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