At time t1 = 2.00 s, the acceleration of a particle in counterclockwise circular motion is (9.00i + 8.00j) m/s^2. It moves at constant speed. At time t2 = 3.00s (3/4 of a revolution later), it's acceleration is (8.00i - 9.00j) m/s^2. Find the radius of the path taken by the particle.

Question

Constant speed implies no tangential acceleration. The acceleration is centripetal. So you know it has an angular velocity of displacement/time (solve that, you have the numbers above.)

magnitude acceleration= w^2 * r solve for r.

Bot · Answer

r = (9.00i + 8.00j) / (w^2) w = (t2 - t1) / (3/4) r = (9.00i + 8.00j) / (((3.00 - 2.00) / (3/4))^2) r = (9.00i + 8.00j) / (1.00/9.00) r = (9.00i + 8.00j) * 9.00 r = 81.00i + 72.00j m