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 diagram shown in figure, match the following columns (take g=10 ms^(-2) ) {:("Column I","Column II"),("(A) Normal reaction","(p) 12 SI unit"),("(B) Force of friction","(q) 20 SI unit"),("(C) Acceleration of block","(r) zero"),(,"(s) 2 SI unit"):}

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"):}

A balloon rises up with constant net acceleration of 10 m//s^(2) . After 2 s a particle drops from the balloon. After further 2 s match the following : ("Take" g=10 m//s^(2)) {:(,"Column I",,,"Column II"),((A),"Height of perticle from ground",,(p),"Zero"),((B),"Speed of particle",,(q),10 SI "units"),((C),"Displacement of Particle",,(r),40 SI "units"),((D),"Acceleration of particle",,(s),20 SI "units"):}

For the velocity -time graph shown in figure, in a time interval from t=0 to t=6 s , match the following: {:(,"Column I",,,"Column II"),((A),"Change in velocity",,(p),-5//3 SI "unit"),((B),"Average acceleration",,(q),-20 SI "unit"),((C),"Total displacement",,(r),-10 SI "unit"),((D),"Acceleration ay t=3s",,(s),-5 SI "unit"):}

Two blocks of masses m_(1)=5 kg and m_(2)=2 kg are connected by threads which pass over the pulleys as shown in the figure. The threads are massless and the pulleys are massless and smooth. The blocks can move only along the vertical direction T_(1) and T_(2) are the tensions in the string as shown. Now match the following: (Take g=10 m//s^(2)) {:(,"Column -I",,"Column -II"),("(a)",underset("acceleration of " m_(1) " with respect to ground")"Magnitude value of",,(p)500/19 "SI units"),("(b)",underset("acceleration of" m_(2) "with respect to ground")"Magnitude value of",,(q)250/19 "SI units"),("(c)","The value of tension" T_(1) ,,(r) 60/19 "SI units"),("(d)","The value of tension" T_(2),,(s) 40/19 "SI units"),(,,,"(t)None of the above"):}

In the diagrm shown, all pulleys are smooth and massless and strings are light. {:(,"Column I",,"Column II",),((A),1 kg "block",(P),"will remains tationary",),((B),2 kg "block",(Q),"will move down",),((C ),4 kg "block",(R ),"will move up",),((D),5 kg "block",(S),"has acceleration " 10 m//s^(2),),(,,(T),"has no acceleration",):}

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 all surface are smooth. Find (a)acceleration of all the blocks, (b) net force on 4kg and 10kg blocks and , ( c) force acting between 4kg and 10kg blocks.

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