The blocks are connected by an an inextensible string of negligible mass. The string passes over a frictionless pulley without slipping on the rim of the pulley. The block on the frictionless incline is moving with a constant acceleration up the incline.
5.6 m/s^2 for the 7.5 kg block going up the frictionless incline with t2 string
R = 0.39 m for the pulley?
24 kg block hangs off the pulley with T1 string
24 degree incline
Determine the tension in the vertical part
of the string. The acceleration of gravity is
9.8 m/s2 .
Answer in units of N.
Determine the tension in the string parallel to
the inclined plane.
Answer in units of N.
Find the mass of the pulley. It has uniform
density and is shaped like a narrow cylindrical
disk.
Answer in units of kg
5.6 m/s^2 for the 7.5 kg block going up the frictionless incline with t2 string
R = 0.39 m for the pulley?
24 kg block hangs off the pulley with T1 string
24 degree incline
Determine the tension in the vertical part
of the string. The acceleration of gravity is
9.8 m/s2 .
Answer in units of N.
Determine the tension in the string parallel to
the inclined plane.
Answer in units of N.
Find the mass of the pulley. It has uniform
density and is shaped like a narrow cylindrical
disk.
Answer in units of kg