`{:("Column-I","Column-II"),((A)"Acetone +"CHCl_3, (p)DeltaS_("mix") gt0),((B)"Ethanol + Water ",(q)DeltaV_(mix)gt0),((C )C_2H_5Br+C_2H_5I,(r)DeltaH_(mix) lt 0),((D)"Aceton + Benzene",(s)"Maximum boiling azeotropes"),(,(t)"Minimum boiling azeotropes"):}`

Three liquids A, B and C having same specific heat and mass m , 2 m and 3 m have temperature 20^(@)C , 40^(@)C and 60^(@)C respectively. Temperature of the mixture when: {:(,"Column-I",,"Column-II"),((A),"A and B are mixed",(p),35^(@)C),((B),"A and C are mixed",(q),52^(@)),((C),"B and C are mixed",(r),50^(@)),((D),"A,B and C all three are mixed",(s),45^(@)),(,,(t),"None"):}

{:(,"Column-I",,"Column-II"),((a),"Reversible adiabatic compression",(p),"Process in equilibrium"),((b),"Reversible vaporisation of liquid",(q),DeltaS_(system)lt0),((c),2N(g)rarrN_(2)(g),(r),DeltaS_("surrounding")lt0),((d),MgCO_(3)(s)oversetDeltararrMg(s)+CO_(2)(g),(s),DeltaS_("sublimation")=0):}

Match the following {:(,"Column-I",,"Column-II"),((A),"Enthalpy",(p),"Extensive property"),((B),"Entropy",(q),"H - TS"),((C),"Free energy",(r),"E + PV"),((D),"Pressure",(s),"Intensive property"):}

We mix equal volume of two aqueous solution.Match the following : {:("Column-I","Column-II"),((A)"0.2 M KOH+ 0.5 M HCOOH", (p)0.7),((B)0.1 M NaCl+0.1 M NaNO_3,(q)between 1 "to "7),((C )0.1 M NH_4Cl+0.1 M NaOH,(r)7),((D)0.5 M HCl+0.1 M NH_4OH,(s)"greater than" 7),([log_10 2=0.3],(t)"less than 7"):}

Match the column I with column II {:("Column-I","Column-II"),((A)"Natural rubber",(p)"Thermosetting polymer"),((B)"Nylon-66",(q)"Homopolymer"),((C )"Bakelite",(r)"Butadiene & styrene"),((D)"Buna-S",(s)"Polyamide"),(,(t)"Copolymer"):}

{:(,"Column I",,"Column II"),(("A"),"Work",(p),["A"^(1//2)"T"^(-1)]),(("B"),"Moment of inertia",(q),["FA"^(1//2)]),(("C"),"Velocity",(r),["FA"^(1//2)"T"^(2)]):}

{:("column"-1,"Column"-2),((A)(DeltaG_("system"))_(T.P) = 0,(p) "Process is in equilibrium"),((B)DeltaS_("system")+DeltaS_("surrounding") gt 0, (q)"Process is nonspontaneous"),((C)DeltaS_("system") +DeltaS_("surroumding") lt 0 , (r) "Process is spontaneous"),((D)(DeltaG_("system"))_(T.P) gt 0,(s)"System is unable to do useful work"):}

Match the transformation in colums I with appropriate options in column II. {:("Column I" ,"Column II"),((A)CO_(2)(s) rarr CO_(2)(g),(p)"phase transition"),((B)CaCO_(3)(s)rarr CaO(s) + CO_(2)(g) ,(q)"allotropic change"),((C)2H.rarrH_(2)(g),(r)DeltaH "is positive"),((D)P_(("white, solid"))rarr P_(("red,solid")),(s)DeltaS "is positive"),(,(t) DeltaS "is negative"):}

Match the compounds, listed in column-I with the characteristic(s) listed in column-II. {:("Column I","Column II"),((A)BeO(s),(p)"Amphoteric in nature"),((B)NaHCO_3("crystalline"),(q)"Imparts characteristic colour to Bunsen flame"),((C )BeCl_2(s),(r)"Produce"H_2O_2 and O_2 "on reaction with water." ),((D)CsO_2(s),(s)"Show hydrogen bonding"),(,(t)"Has a chain structure"):}

Two parallel metallic plates have surface charge densities sigma_(1) and sigma_(2) as shown in figure. {:(,"Column-I",,,"Column-II"),((A),"If " sigma_(1)+sigma_(2)=0,,(p),"Electric field in region III is towards right"),((B),"If" sigma_(1)+sigma_(2) gt 0,,(q),"Electric field in region I is zero"),((C),"If "sigma_(1)+sigma_(2) lt 0,,(r),"Electric field in region I is towards roght"),(,,,(s),"Nothing can be said"):}