Mar 20, 2025 · The acceleration can change over time and this is why this approximation breaks down if the acceleration changes too much within the time interval. If you want to know more …

Jul 12, 2015 · For this proof I will assume two things The radius is constant, i.e. $\vec r\cdot \vec r=r^2=c$ The acceleration is in opposite direction to the position vector, i.e. $\vec a\cdot \vec …

Distance formula using initial velocity and acceleration Ask Question Asked 9 years, 9 months ago Modified 2 years, 1 month ago

Feb 9, 2014 · Your question is kind of vague but I will try to respond. Acceleration is defined as the time rate of change of velocity. Since velocity has both magnitude and direction, so does …

I have done a physics experiment (setup below). And was asked to determine the experimental and theoretical acceleration. The data I've got Ok, am I right to say Experimental acceleration …

Jun 21, 2015 · There are several ways to write centripetal acceleration $$\\frac{v^2}{r} = \\omega^2 r = v \\omega$$ Are there intuitive explanations for any of these three forms? For …

Jun 21, 2015 · The formula for centripetal (radial) acceleration is well known, and there exist many proofs for it: $$||a_c|| = \frac {||v||^2} {r}$$ However, all the proofs I've seen rely on the fact that …

Dec 11, 2020 · I teach physics to 16-year-old students who do not know calculus and the derivates. When I explain the formula for centripetal acceleration in circular uniform motion, I …

Nov 13, 2014 · Every one knows the three famous equations for motions with constant acceleration . But what if the motion were having a jerk? How should then be the equations for …

Acceleration is defined as $ a = \frac {s} {t^2}.$ Distance can be calculated as the area under velocity-time line; given a constant accelation, and an initial velocity of 0, this forms a triangle: …