Column-1 gives three physical quantities. Select the appropriate units for the choices given in column-II. Some of the physical quantities may have more than one choice.
`{:("Column-I",,"Column-II"),("Capacitance",,"ohm-second"),("Inductance",,"Coulomb"^(2)//"Joule"),("Magnetic induction",,"coulomb"//"volt"),(,,"newton"//"ampere metre"),(,,"volt-second"//"ampere"):}`

Join the relation of physical quantities in Column-I to the details given in Column-II appropriately:

Different physical quantities are given in Column -I and their dimensional formula are given in Column -II . Match them appropriately.

Column - II shows the optical phenomenon that can be associated with optical components given in column- I . Note the column - I may have more than one matching options in column-II. {:("Column I","Column II"),((A)"Convex mirror",(p)"Dispersion"),((B)"Converging lens",(q) "Deviation"),((C)"Thin prism" , (r) "Real image of real object") , ((D) "Glass slab", (s) "Virtual images of real object"):}

Some physical quanties are given in Column I and some possible SI units in which these quantities may be expressed are given in Column II. Match the physical quantities in Column I with the units in Column II. {:(,"Column I",,,"Column II"),((A),GM_(e)M_(s),,(p),("volt")("coulomb")("metre")),(,G-"universal gravitational constant",,,),(,M_(e)-"mass of the earth," M_(s)- "mass of the sun",,,),((B),(3RT)/(M),,(q),("kilogram")("metre")^(3)("second")^(-2)),(,R-"universal gas constant,",,,),(,T- "absolute temperature, M- molar mass",,,),((C),F^(2)/(q^(2)B^(2)),,(r),("metre")^(2)("second")^(-2)),(,F-"force,"q-"charge," B- "magnetic field",,,),((D),(GM_(e))/R_(e),,(s),("farad")("volt")^(2)(kg)^(-1)),(,G- "universal gravitational constant,",,,),(,M_(e)- "mass of the earth," R_(e)- "radius of the earth.",,,):}

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)]):}

In Column-I physical quantity and in Column -II its dimensional formula is givne. Match them properly : {:("Column-I","Column-II"),("(1) Moment of force",(a) M^1L^1T^-1),("(2) Angular momentum",(b) M^1L^2T^-1),("(3) Linear momentum",(c) M^1L^2T^-2):}

{:(,"Column I",,"Column II"),(,("Physical Quantity"),,("Formula")),(1.,"Work",a.,(W)/(t)),(2.,"Power",b.,mgh),(3.,"Potential energy",c.,(1)/(2)mv^(2)),(4.,"Kinetic energy",d.,Fs),(,,e.,ma),(,,,):}

Match Column-I with Column-II : {:("Column-I","Column-II"),("(1) Definition of force.","(a) Newton's third law of motion."),("(2) Magnitude of forec.","(b) Newton's second law of motion."),("","(c) Newton's first law of motion."):}

In Column-I quantity and Column-II their value are given. Match them properly : {:("Column-I","Column-II"),("(1) 1 light year",(a) 3.08xx10^16m),("(2) 1 Parsec",(b) 9.46xx10^15m),("(3) A.U.",(c) 1.496xx10^11m):}