Spread the loveIntroduction Acceleration is a vital concept in the field of physics, directly relating to the change in an object’s velocity over time. One critical way to calculate acceleration is by ...

If you have a spring in your system and know its spring constant (k) and its deformation (x), you can calculate the force exerted by the spring without needing acceleration: F = kx. Where F is the ...

A demonstration of key points of the required practical to investigate the effect of varying force or mass on the acceleration of an object for GCSE physics and combined science.

Mass is measured in kilograms (kg) or grams (g)., if the resultant force remains constant. Use an accelerating force of 5 N and keep this constant. Record acceleration as additional 0.5 kg masses ...

Using the values of mass 1 = 1.207 kg and mass 2 = 0.145 kg, I get an acceleration of 1.05 m/s 2. This is pretty close to the experimental value (seen above) at 1.109 m/s 2 . I'm happy.

According to NASA, this law states, "Force is equal to the change in momentum per change in time.For a constant mass, force equals mass times acceleration." This is written in mathematical form as ...