Question

Two blocks, with masses m and 3m , are attached to the ends of a string with negligible mass that passes over a pulley, as shown above. The pulley has negligible mass and friction and is attached to the ceiling by a bracket. The blocks are simultaneously released from rest.

(b) Determine the work done by the string on the two-block system as each block moves a distance d.

Answer 1

Here is the answer below:

Step-by-step explanation:

Image to the work, ur welcome ;)

(The acceleration of the center of mass is the same as the acceleration of the object of mass M).

Answer 2

(a)v = √gd (b) Td - Td = 0 (c) -g/4 m/s²

Step-by-step explanation:

Solution

Given that:

By the work energy theorem,

ΔKE = W = work done

1/2 *3m * v² + 1/2 * m * v² = 3mgd - mgd

so,

2 v² = 2gd

v = √gd

(b)W tension system = Td - Td = 0

(c) a = 3mg - mg/ 4m = g/2

Thus,

Acm = 3 m (g/2) + m (g/2)/4m

= -g/4 m/s²

Note: The complete question to this example is shown below

Two blocks, with masses m and 3m, are attached to the ends of a string with negligible mass that passes over a pulley, as shown above. The pulley has negligible mass and friction and is attached to the ceiling by a bracket. The blocks are simultaneously released from rest.

(a) Derive an equation for the speed v of the block of mass 3m after it falls a distance d in terms of m, d, and physical constants, as appropriate.

(b) Determine the work done by the string on the two-block system as each block moves a distance d.

(c) The acceleration of the center of mass of the blocks-string-pulley system has magnitude aCOM . Briefly explain, in terms of any external forces acting on the system, why aCOM