B and C shown in fig (a) are 4 kg
The masses of the blocks A, B and C shown in fig (a) are 4 kg, 2kg and 2 kg respectively Block A moves with an acceleration of 2.5 ms(-2) a. Block C is removed from its in position and placed on block A (b). What is now the acceleration of block C ? b. The position of the block A and B subsequently interchanged find the new acceleration of C .The coefficient of friction in the same for all
30
Aug
The masses of the blocks A, B and C shown in fig (a) are 4 kg, 2kg and 2 kg respectively Block A moves with an acceleration of 2.5 ms(-2) a. Block C is removed from its in position and placed on block A (b). What is now the acceleration of block C ? b. [...]
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B and C shown in fig (a) are 4 kg ,
find the static friction between the blocks. Make the necessary assumptions and discuss different cases. ,
Let as consider the next case in the previous illustration when there is no friction between ground and M . The coefficient of static and kinetic friction are mu(2) and mu(1) ,
respectively ,
The masses of the blocks A ,
Two blocks A and B of mass 10 kg and 20 kg respectivelly ,
Two blocks m 1 and m 2 are acted upon by the forces F 1 and f2 as shown in Fig. If there is no relative sliding between the blocks and the ground is smooth ,