In the diagram shown in figure. Match the following columns.

`{:("Colmun I","Column II"),("(A) Absolute acceleration of 1 kg block",(p) 11 ms^(-2)),("(B) Absolute acceleration of 2 kg block",(q)6 ms^(-2)),("(C) Relative acceleration between the two",(r) 17 ms^(-2)),(,(s) "None"):}`

The acceleration of block is( g=10 ms-2)

In the diagram shown in figure, match the following (g=10 m//s^(2)) {:(,"Column-I",,,"Coloumn-II"),((A),"Acceleration of 2kg block",,(P), "8 Si unit"),((B),"Net force on 3kg block",,(Q),"25 SI unit"),((C),"Normal reaction between 2 kg and 1kg",,(R),"2 SI unit"),((D),"Normal reaction between 3 kg and 2kg " ,,(S)," 45 SI unit"),(,,,(T)," None"):}

In the figure shown, acceleration of 1 is x (upwards). Acceleration of pulley P_(3) , w.r.t. pulley P_(2) is y (downwards) and acceleration of 4 w.r.t. to pulley P_(3) is z (upwards). Taking upward +ve and downward -ve then {:(,"Column I",,,"Column II"),((A),"Absolute acceleration of 2",,(p),(y-x) "downwards"),((B),"Absolute acceleration of 3",,(q),(z-x-y) "upwards"),((C),"Absolute acceleration of 4",,(r),(x+y+z) "downwards"),(,,,(s),"None"):}

In the figure ( g = 10 m//s^(2) ) .Acceleration of 2kg block is :

In the diagram shown in figure, all pulleys are smooth and massless and string are light. Match the following columns. {:("Column I","Column II"),("(A) 1kg block","(p) will remain stationary"),("(B) 2 kg block","(q) will move down"),("(C) 3 kg block","(r) will move up"),("(D) 4 kg block",(s) 5 ms^(-2)),(,(t) 10 ms^(-2)):}

In the figure shown, the acceleration of block of mass m_(2) is 2m//s^(2) . The acceleration of m_(1) :

If block A is moving with an acceleration of 5ms^(-2) , the acceleration of B w.r.t. ground is

Find the acceleration of 3kg mass when acceleration of 2kg mass is ms^(-2) as shwon in fig.

Find the acceleration of 3 kg mass when acceleration of 2 kg mass is 2ms^(-2) as shown in figure-2.140