Three particles of masses 8 kg, 4 kg and 4 kg situated at (4,1), (-2,2) and (1,-3) are acted upon by external forces `6bar(j)N,-6 bar(i)N` and `14 bar(i)N`. The acceleration of centre of mass of the system is

Two particles of masses 2 kg and 4 kg are approaching each other with acceleration 1 ms^(-2) and 2 ms^(-2) , respectively, on a smooth horizontal surface. Find the acceleration of center of mass of the system.

A body of mass 10 kg is acted upon by two perpendicular forces , 6 N and 8 N . The resultant acceleration of the body is

A body of mass 10kg is acted upon by two per pendicular forces 6N and 8N . The resultant ac-celeration of the body is .

Three point particles of masses 1.0 kg 2 kg and 3 kg are placed at three comers of a right angle triangle of sides 4.0 cm , 3.0 cm and 5.0 cm as shown in the figure . The centre of mass of the system is at point :

Three point particles of masses 1.0 kg 2 kg and 3 kg are placed at three comers of a right angle triangle of sides 4.0 cm , 3.0 cm and 5.0 cm as shown in the figure . The centre of mass of the system is at point :

Three particles of masses 1 kg, 2 kg and 3 kg are situated at the corners of an equilateral triangle move at speed 6ms^(-1), 3ms^(-1) and 2ms^(-1) respectively. Each particle maintains a direction towards the particles at the next corners symmetrically. Find velocity of CM of the system at this instant

Two blocks of masses 6 kg and 4 kg are attached to the two ends of a massless string passing over a smooth fixed pulley. if the system is released, the acceleration of the centre of mass of the system will be

Particles of masses 1 kg and 3 kg at (2i+5j+13 k) m and (-6i+4j-2k)m then instantaneous position of their centre of mass is

Particles of masses 1kg and 2kg are at (i+2j+3k) m and (-2i+4j+2k)m then instantaneous position of their centre of mass is

Three particles of masses 1.0 kg 2.0 kg and 3.0 kg are placed at the corners A,B and C respectively of an equilateral triangle ABC of edge 1m. Locate the centre of mass of the system.