How Do You Calculate Acceleration With Friction?
All objects must accelerate to increase their velocities. Acceleration is defined as a change in speed over time. In the real world, there is always a force working against acceleration: friction. Friction comes in many forms, but is usually drag caused by the wind or the ground, or both. Friction inevitably reduces the acceleration that an object experiences when a force acts upon. Calculating this effect is not too difficult. It’s all based on Newton’s second law of motion that contains the mathematical definition of force: Force = mass x acceleration. Write the equation for the how the force pushing or pulling an object is related to its acceleration, then use algebra to solve for the acceleration: F = M x A, so A = F/M. F = force applied to push or pull an object in Newtons (N) M = object’s mass in kilograms (kg) A = object’s acceleration in meters per square second (m/s^2) Write the equation that shows the force of friction that will act on an object as it is pushed or pulled, the
