A 2.28 kg ball is pushed against a horizontal spring whose force constant is 1201 N/m, compressing the spring to x=0.29 m. When the system is released, the ball traveled along the horizontal surface whose coefficient of kinetic friction is 0.244 and then up a frictionless plane inclined at e=28.2° above the horizontal. If the ball has reached a distance of d=1.28 m along the plane before sliding back downwards, how far did the ball travel the moment it leaves the spring until it reached the bottom of the inclined? d x = 0

A 2.28 kg ball is pushed against a horizontal spring whose force constant is 1201 N/m, compressing the spring to x=0.29 m. When the system is released, the ball traveled along the horizontal surface whose coefficient of kinetic friction is 0.244 and then up a frictionless plane inclined at Ɵ=28.2° above the horizontal. If the ball has reached a distance of d=1.28 m along the plane before sliding back downwards, how far did the ball travel the moment it leaves the spring until it reached the bottom of the inclined?

Transcribed Image Text:

A 2.28 kg ball is pushed against a horizontal spring whose force constant is 1201 N/m, compressing the spring to x=0.29 m. When the system is released, the ball traveled along the horizontal surface whose coefficient of kinetic friction is 0.244 and then up a frictionless plane inclined at e=28.2° above the horizontal. If the ball has reached a distance of d=1.28 m along the plane before sliding back downwards, how far did the ball travel the moment it leaves the spring until it reached the bottom of the inclined? -x- d x = 0