There are two point A and B inside a liquid as shown in figure. Now the vessel starts moving upwards with an acceleration a. Match the following.

`|{:(,"Table-1",,"Table-2"),((A),"Pressure at B will",(P),"increase"),((B),"Pressure difference",(Q),"decrease"),(,"between A and B will",,),((C),"Upthrust on an object",(R),"remain same"),(,"inside the verssel will",,):}|`

A cube is floating in a liquid as shown in figure. Match the following. |{:(,"Table-1",,"Table-2"),((A),"If density liquid",(P),"increase"),(,"decreases x will",,),((B),"If size of cube is",(Q),"decrease"),(,"increased x will",,),((C),"If the whole system is",(R),"remain same"),(,"accelerated upwards x",,),(,"will",,):}|

Two soap bubbles coalesce to form a single large drop. Match the following. |{:(,"Table-1",,"Table-2"),((A),"Surface energy in the",(P),"increase"),(,"process will",,),((B),"Temperature of the",(Q),"decrease"),(,"drop will",,),((C),"Pressure inside the",(R),"remain same"),(,"soap bubble will",,):}|

A tube is inverted in a mercury vessel as shown in figure. If pressure P is increased, then |{:(,"Table-1",,"Table-2"),((A),"Height h",(P),"will increase"),((B),"Pressure at O",(Q),"will decrease"),((C),"Pressure at 1 cm",(R),"will remain same"),(,"above O",,):}|

A solid is immersed completely in a liquid. The temperature coefficients of volume expansion of solid and the liquid are gamma_(1) and gamma_(2) (lt gamma_(1)) . If temperatures of both are increased, then match the following. |{:(,"Table-1",,"Table-2"),((A),"upthrust on the solid will",(P),"increase"),((B),"apparent weight of the solid will",(Q),"decrease"),((C),"fraction of volume immersed in",(R),"remain same"),(,"the liquid if allowed to float will",,):}|

In the figure shown, velocity of liquid which comes out is v, time of liquid to fall to ground is t and range on ground is R. If the vessel is taken to a mountain, match the following. |{:(,"Table-1",,"Table-2"),((A),V,(P),"will increase"),((B),t,(Q),"will decrease"),((C),R,(R),"will remain same"):}|

Match the following |{:(" Table-1"," Table-2"),((A)" Steel",(P)" Young's modulus of"),(," elasticity"),((B)" Water",(Q)" Bulk modulus of elasticity"),((C)" Hydrogen gas filled",(R)" sheer modulus of"),(" in a chamber"," elasticity"),(,):}|

Match the following {:(,"Table - 1",,"Table - 2",),((A),sigma^(2)//epsi_(0),(P),C^(2)//J - m,),((B),epsi_(0),(Q),"Farad",),((C),("ampere - second")/("Volt"),(R),J//m^(3),),((D),(V)/(E),(S),"metre",):}

A pendulum is released from point A as shown in figure. At some instant net force one the bob is making an angle theta with the string. Then Match the following {:(,"Table-1",,"Table-2"),("(A)","For "theta=30^(@),"(P)","Particle may be moving along BA"),("(B)","For "theta=120^(@),"(Q)","Particle may be moving along CB"),("(C)","For "theta=90^(@),"(R)","Particle may be at A"),("(D)","For "theta=0^(@),"(S)","Particle is at B"),(,,"(T)","None"):}

Match the following. |{:(,"Table-1",,"Table-2"),((A),"Coefficient of viscosity",(P),[M^(2)L^(-1)T^(-2)]),((B),"Surface tension",(Q),[ML^(0)T^(-2)]),((C),"Modulus of elasticity",(R),[ML^(-1) T^(-2)]),((D),"Energy per unit volume",(S),"None"),(,"of a fiuid",,):}|

Match the following . When an independent positive charge moves from higher potential to lower potential, then {:(,"Table - 1",,"Table - 2",),((A),"its kinetic energy",(P),"will remain constant",),((B),"its potential energy",(Q),"will decrease",),((C),"its mechanical energy",(R),"will increase",):}