{:(,"Column I",,"Column II"),(("A"),GM(e...

`{:(,"Column I",,"Column II"),(("A"),GM_(e)M_(s),(p),["M"^(2)"L"^(2)"T"^(-3)]),(("B"),(3RT)/(M),(q),["ML"^(3)"T"^(-2)]),(("C"),F^(2)/q^(2)B^(2),(r),["L"^(2)"T"^(-2)]),(("D"),GM_(e)/R_(e),(s),"None"):}`

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{:(,"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 I",,"Column II"),(("A"),"Electrical resistance",(p),["M"^(-1)"L"^(-2)"T"^(4)"A"^(2)]),(("B"),"Capacitance",(q),["ML"^(2)"T"^(-2)"A"^(-2)]),(("C"),"Magnetic field",(r),["ML"^(2)"T"^(-3)"A"^(-2)]),(("D"),"Inductance",(s),["MT"^(-2)"A"^(-1)]):}

Let R_(t) represents activity of a sample at an insant and N_(t) represent number of active nuclei in the sample at the instant. T_(1//2) represents the half life. {:(,"Column I",,"Column II"),((A),t=T_(1//2),(p),R_(t)=(R_(0))/(2)),((B),t=(T_(1//2))/(ln2),(q),N_(0)-N_(t)=(N_(0))/(2)),((C),t=(3)/(2)T_(1//2),(r),(R_(t)-R_(0))/(R_(0)) = (1-e)/(e)),(,,(s),N_(t)=(N_(0))/(2sqrt(2))):}

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),r.,[MA^(-1)T^(-2)]),(D.,"Henry",s.,"None"):}

Match the following {:(,,"Table-1",,"Table-2"),(,(A),L,(P),[M^(0)L^(0)T^(-2)]),(,(B),"Magnetic Flux",(Q),[ML^(2)T^(-2)A^(-1)]),(,(C),LC,(R),[ML^(2)T^(-2)A^(-2)]),(,(D),CR^(2),(S),"None"):}

{:(,"Column I",,"Column II"),(("A"),R//L,(p),"Time"),(("B"),C//R,(q),"Frequency"),(("C"),E//B,(r),"Speed"),(("D"),sqrt(epsilon_(0)mu_(0)),(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"):}

{:(,"ColumnI",,"ColumnII"),((A),(K.E.)/(P.E.),(P),2),((B),P.E+2K.E.,(Q),-(1)/(2)),((C),(P.E.)/(T.E.),(R),1),((D),(K.E.)/(T.E.),(S),0):}

Four rods of equal length l and mass m each forms a square as shown in figure Moment of inertia about three axes 1,2 and 3 are say I_(1),I_(2) and I_(3) . Then, match the following columns {:(,"Column-I",,"Column-II"),("(A)",I_(1),"(p)",(4)/(3)ml^(2)),("(B)",I_(2),"(q)",(2)/(3)ml^(2)),("(C)",I_(3),"(r)",(1)/(2)ml^(2)),(,,"(s)","None"):}

{:(,"A.","Spring constant",1.,["M"^(1)"L"^(2)"T"^(-2)]),(,"B.","Pascal",2.,["M"^(0)"L"^(0)"T"^(-1)]),(,"C","Hertz",3.,["M"^(1)"L"^(0)"T"^(-2)]),(,"D.","Joule",4.,["M"^(1)"L"^(-1)"T"^(-2)]):}

DC PANDEY ENGLISH-UNITS, DIMENSIONS & ERROR ANALYSIS -Match the column

{:(,"Column I",,"Column II"),(("A"),R//L,(p),"Time"),(("B"),C//R,(q),"...
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{:(,"Column I",,"Column II"),(("A"),"Stress",(p),"Pressure"),(("B"),"S...
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{:(,"Column I",,"Column II"),(("A"),"Work",(p),["A"^(1//2)"T"^(-1)]),(...
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{:(,"Column I",,"Column II"),(("A"),"Electrical resistance",(p),["M"^(...
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{:(,"Column I",,"Column II"),(("A"),GM(e)M(s),(p),["M"^(2)"L"^(2)"T"^(...
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{:(,"A.","Spring constant",1.,["M"^(1)"L"^(2)"T"^(-2)]),(,"B.","Pascal...
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