Two blocks A and B of mass 10 kg and 20 kg respectivelly
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 ,
In the Fig force F = alpha t is applied on the block of mass m(2). Here alpha is a constant and t is the time .Find the acceleration of the block Also draw the acceleration time graph of both the block
30
Aug
In the Fig force F = alpha t is applied on the block of mass m(2). Here alpha is a constant and t is the time .Find the acceleration of the block Also draw the acceleration time graph of both the block find the static friction between the blocks. Make the necessary assumptions and discuss [...]
Tags:
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 ,
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 ,
Two blocks A and B of mass 10 kg and 20 kg respectivelly, are arranged as shown in figure In the figure given a constant force F(0) = 120 acts on block A and a force zero discoss the direction and nature of friction force and the acceleations of the block for different value of F
30
Aug
Two blocks A and B of mass 10 kg and 20 kg respectivelly, are arranged as shown in figure In the figure given a constant force F(0) = 120 acts on block A and a force zero discoss the direction and nature of friction force and the acceleations of the block for different value of [...]
Tags:
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 ,
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 ,