All surfaces shown in figure are assumed to be frictionless and the pulleys and the string are light. The acceleration of the block of mass

A mass m1 is connected by a light string that passes over a pulley of mass M to a mass m2 sliding on a frictionless horizontal surface as shown in the figure. There is no slippage between the string and the pulley. The pulley has a radius of 25.0 cm and a moment of inertia of ½ MR2. If m1 is 1.00 kg, m2 is 2.00 kg, and M is 4.00 kg, then what is the downward acceleration of m1?

A mass m1 is connected by a light string that passes over a pulley of mass M to a mass m2 sliding on a frictionless horizontal surface as shown in the figure. There is no slippage between the string and the pulley. The pulley has a radius of 25.0 cm and a moment of inertia of ½ MR2. If m1 is 4.00 kg, m2 is 4.00 kg, and M is 4.00 kg, then what is the tension in the string attached to m2?

Two identical masses are attached by a light string that passes over a small pulley, as shown above.The table and the pulley are frictionless.The masses are movingGroup of answer choiceswith an acceleration equal to g.with an acceleration greater than g.with an acceleration that cannot be determined without additional information.at constant speed.with an acceleration less than g.

An object of mass m1 = 4.90 kg is connected by a light cord to an object of mass m2 = 3.00 kg on a frictionless surface (see figure). The pulley rotates about a frictionless axle and has a moment of inertia of 0.440 kg · m2 and a radius of 0.320 m. Assume that the cord does not slip on the pulley.An illustration shows a rectangular block of mass m2 on the horizontal surface of a table. Block m2 is connected to another rectangular block of mass m1 by a cord that runs over a pulley placed diagonally at the corner of the horizontal surface of the table. The rectangular block of mass m1 is suspended vertically by the side of the tabletop. The part of the cord that extends from m1 to the pulley is labeled T1, and the part of the cord that extends from m2 to the pulley is labeled T2.(a) Find the acceleration of the two masses. m/s2(b) Find the tensions T1 and T2.T1 = NT2 = N

Uniform rod AB is hinged at the end A in a horizontal position as shown in the figure. The other end is connected to a block through a massless string as shown. The pulley is smooth and massless. Masses of the block and the rod are same and are equal to ' m '. Then acceleration of the block just after release from this position is