# The two blocks shown are connected by a string of negligible mass passing over a pulley of radius 0.254 m and moment of inertia L The block on the frictionless incline is moving up with a constant acceleration of 2.50 m/s 7 kg 10.0 (6) (a) Determine TI and T2, the tensions in the two parts of the string

The two blocks shown are connected by a string of negligible mass passing over a pulley of radius 0.254 m and moment of inertia L The block on the frictionless incline is moving up with a constant acceleration of 2.50 m/s 7 kg 10.0 (6) (a) Determine TI and T2, the tensions in the two parts of the string The two blocks shown are connected by a string of negligible mass passing over a pulley of radius 0.254 m and moment of inertia L The block on the frictionless incline is moving up with a constant acceleration of 2.50 m/s 7 kg 10.0 (6) (a) Determine TI and T2, the tensions in the two parts of the string x A cos tot 2 TT f Laney College Physics MA (o points) The two blocks shown are connected by a string of negligible mass passing over a pulley of radius 0.254 m and moment of inertia L The block on the frictionless incline is moving up with a constant acceleration of 2.50 m/s 7 kg 10.0 (6) (a) Determine TI and T2, the tensions in the two parts of the string (b) Find the moment of inertia ofthe pulley (4) s cast   Share this:TwitterFacebook The two blocks shown are connected by a string of negligible mass passing over a pulley of radius 0.254 m and moment of inertia L The block on the frictionless incline is moving up with a constant acceleration of 2.50 m/s 7 kg 10.0 (6) (a) Determine TI and T2, the tensions in the two parts of the string

x A cos tot 2 TT f Laney College Physics MA (o points) The two blocks shown are connected by a string of negligible mass passing over a pulley of radius 0.254 m and moment of inertia L The block on the frictionless incline is moving up with a constant acceleration of 2.50 m/s 7 kg 10.0 (6) (a) Determine TI and T2, the tensions in the two parts of the string (b) Find the moment of inertia ofthe pulley (4) s cast   Share this:TwitterFacebook