In the given figure, the blocks of mass 2kg and 3kg are placed one over the other as shown. The surface are rough with coefficient of friction `mu_(1)=0.2, mu_(2)=0.06`. A force `F=0.5t` (where 't' in sec) is applied on upper block in the direction shown. Based on above data answers the following questions. `(g = 10 m//sec^(2))`

The frictional force acting between the blocks at `t=10 sec` is

In the given figure, the blocks of mass 2kg and 3kg are placed one over the other as shown. The surface are rough with coefficient of friction mu_(1)=0.2, mu_(2)=0.06 . A force F=0.5t (where 't' in sec) is applied on upper block in the direction shown. Based on above data answers the following questions. (g = 10 m//sec^(2)) The frictional force acting between the two blocks at t=9 sec

In the given figure, the blocks of mass 2 kg and 3 kg are placed one over the other as shown. The surface are rough with coefficient of friction mu_(1)=0.2, mu_(2)=0.06 . A force F=0.5t ( where 't' "in" sec ) is applied on upper block in the direction shown. Based on above data answer the following questions. ( g= 10m//sec^(2)) The frictional force acting between the two blocks at t=8 sec .

In the given figure, the blocks of mass 2kg and 3kg are placed one over the other as shown. The surface are rough with coefficient of friction mu_(1)=0.2, mu_(2)=0.06 . A force F=0.5t (where 't' in sec) is applied on upper block in the direction shown. Based on above data answers the following questions. (g = 10 m//sec^(2)) The friction force between the blocks and time graph is :

In the given figure, the blocks of mass 2kg and 3kg are placed one over the other as shown. The surface are rough with coefficient of friction mu_(1)=0.2, mu_(2)=0.06 . A force F=0.5t (where 't' in sec) is applied on upper block in the direction shown. Based on above data answers the following questions. (g = 10 m//sec^(2)) The frictional force acting between 3 kg block and ground w.r.t. time will vary as :

In the given figure, the blocks of mass 2kg and 3kg are placed one over the other as shown. The surface are rough with coefficient of friction mu_(1)=0.2, mu_(2)=0.06 . A force F=0.5t (where 't' in sec) is applied on upper block in the direction shown. Based on above data answers the following questions. (g = 10 m//sec^(2)) The realtive slipping between the blocks occurs at t=

In the given figure, the blocks of mass 2 kg and 3 kg are placed one over the other as shown. The surface are rough with coefficient of friction mu_(1)=0.2, mu_(2)=0.06 . A force F=0.5t ( where 't' "in" sec ) is applied on upper block in the direction shown. Based on above data answer the following questions. ( g= 10m//sec^(2)) The relative slipping between the blocks occurs at t=

In the given figure, the blocks of mass 2kg and 3kg are placed one over the other as shown. The surface are rough with coefficient of friction mu_(1)=0.2, mu_(2)=0.06 . A force F=0.5t (where 't' in sec) is applied on upper block in the direction shown. Based on above data answers the following questions. (g = 10 m//sec^(2)) The acceleration time graph for 2kg blok is :

In the given figure, the blocks of mass 2kg and 3kg are placed one over the other as shown. The surface are rough with coefficient of friction mu_(1)=0.2, mu_(2)=0.06 . A force F=0.5t (where 't' in sec) is applied on upper block in the direction shown. Based on above data answers the following questions. (g = 10 m//sec^(2)) The acceleration time graph for 4 kg block is :

In the given figure, the blocks of mass 2 kg and 3 kg are placed one over the other as shown. The surface are rough with coefficient of friction mu_(1)=0.2, mu_(2)=0.06 . A force F=0.5t ( where 't' "in" sec ) is applied on upper block in the direction shown. Based on above data answer the following questions. ( g= 10m//sec^(2)) The motion of blocks 2 kg and 3 kg will begin at time t = -, - respectively

A 6 kg blocks is kept over a rough surface with coefficients of friction mu_(s)=0.6 and mu_(k)=0.4 as shown in figure. A time varying force F=4t ( F in newton and t in second) is applied on the block as shown. Find the acceleration of block at t=5 sec . ( Taking g=10 m//s^(2) )