Match the following columns,
`{:("Column1","Column2"),("a Thermal resitance","p [MT^(-3)K^(-4)]"),("b Stefan's constant","q [M^(-1)L^(-2)T^(3)K]"),("c Wien's constant","r [ML^(2)T^(-3)]"),("d Heat current","s [LK]"):}`

Match the following columns. {:(,"Column I",,"Column II"),(A.,"Tesla",p,[ML^(2)A^(-2)T^(-2)]),(B.,"Weber",q,[MLA^(-2)T^(-1)]),(C.,"Weber m"^(-2),q.,[MA^(-1)T^(-2)]),(D.,"Henry",s.,"None"):}

Match the following two columns. {:(,"Column I",,"Column II"),("A.","Electrical resistance",1.,["ML"^(3)"T"^(-3)"A"^(-2)]),("B.","Electrical potential",2.,["ML"^(2)"T"^(-3)"A"^(-2)]),("C.","Specific resistance",3.,["ML"^(2)"T"^(-3)"A"^(-1)]),("D.","Specific conductance",4.,"None"):}

Match the physical quantities given on column I with dimensions expressed in terms of mass (M) length (L) time (T), and charge (Q) given in column II and write the correct answer against the matched quantity in a tabular form in your answer book. {:("Column-I",,"Column-II"),("Angular momentum",,[ML^(2)T^(-2)]),("Latent heat",,[ML^(2)Q^(-2)]),("Torque",,[ML^(2)T^(-1)]),("Capacitance",,[ML^(3)T^(-1)Q^(-2)]),("Inductance",,[M^(-1)L^(-2)T^(2)Q^(2)]),("Resistivity",,[L^(2)T^(-2)]):}

Match the physical quantities given in Column 1 with dimensions expressed in terms of mass (M), length (L), time (T), and charge (Q) given n column II. {:(,"Column-I",,"Column-II"),((a),"Angular momentum",(p),[ML^(2)T^(-2)]),((b),"Torque",(q),[ML^(2)T^(-1)]),((c),"Inductance",(r),[M^(-1)L^(-2)T^(2)Q^(2)]),((d),"Latent heat",(s),[ML^(2)Q^(-2)]),((e),"Capacitance",(t),[ML^(3)T^(-1)Q^(-2)]),((f),"Resistivity",(u),[L^(2)T^(-2)]):}

In the diagram shown in figure mass of both the balls in same. Match the following columns. {:("Column1","Column2"),("A For" v^(')=v,"P e=0"),("B For" v^(')=v//2,"Q e=1"),("C For" v^(')= 3//4v,"R e=1/2"),("-","(S data is insufficient"):}

Match the physical quantities in column A with their dimensional formula expressed in column B {:(Column A,, ColumnB),((1) "Anguar Momentum",,(a)ML^(2)T^(-2)),((2)"Latent Heat",,(b)ML^(2)T^(-2)A^(-2)),((3)"Torque",,(c)ML^(2)T^(-1)),((4)"Capacitance",,(d)ML^(3)T^(-3)A^(-2)),((5)"Inductance",,(e)M^(-1)L^(-2)T^(4)A^(2)),("(Resistivity",,(f)ML^(2)T^(-2)A^(-1)),((7)"Magnetic",,(g)ML^(-1)T^(-2)),((8)"Magnetic",,(h)L^(2)T^(-2)):}

Match the following: {:(," ""Column-I",," ""Column-II"),((a),F = A sin(B t) + (1)/(C ln (Dx)) "For above equation to be dimensionally correct",(p),[A] = [M^(1)L^(1)T^(-1)]","[B] = [M^(0)L^(0)T^(-1)]","[C] = [M^(0)L^(0)T^(-1)]),((b) ,"Pressure" = P + (1)/(2)rhov^(2) + gX ,(q),[A] = [M^(0)L^(1)T^(-1)]"," [B] = [M^(0)L^(0)T^(-1)]","[C] = [M^(0)L^(0)T^(-1)]","),((c),X = At+(v)/(B ln(Cr)),(r),[A] = [M^(1)L^(1)T^(-2)]","[B] = [M^(0)L^(0)T^(-1)]","[C] = [M^(-1)L^(0)T^(1)]),(,,(s),"Dimensionally incorrect""):} (Where F = force, P = pressure, rho = density, t = time, v = velocity, a = acceleration, X = displacement)