{:(,"Column I",,"Column II"),(("A"),"Wor...

`{:(,"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)]):}`

Text Solution

Verified by Experts

The correct Answer is:

`("A"to"q","B"to"r","C"to"p")`

[A]=`["L"^(2)]`
`therefore" "["L"]=["A"^(1//2)]`
`["T"]=["T"]rArr["F"]=["MLT"^(-2)]`
`therefore" "["M"]=["FL"^(-1)"T"^(2)]=["FA"^(1//2)"T"^(2)]`
Now, `" "["W"]=["FL"]=["FA"^(1//2)]`
`["I"]=["ML"^(2)]["FA"^(-1//2)"T"^(2)"A"]=["FA"^(1//2)"T"^(2)]`
`["V"]=["LT"^(-1)]=["A"^(1//2)"T"^(-1)]`

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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)]):}

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{:(,"Column I",,,"Column II"),((A),"Moment of inertia",,(p),"newton"//"metre"^(2)),((B),"Surface tension",,(q),"kg"//("metre-sec")),((C),"Angular acceleration",,(r),"kg-metre"^(2)),((D),"Coefficient of viscosity",,(s),"newton"//"metre"),((E),"Modulus of elasticity",,(t),"radian"//"sec"^(2)):}

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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"):}

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