In `y = Asinomegat + Asin(omegat + (2pi)/(3))`
`|{:(,"Column-I",,"Column-II"),((A),"Motion",(p),"is periodic but no SHM"),((B),"Amplitude",(q),"is SHM"),((C),"Initial phase",(r),A),((D),"Maximum velocity",(s),pi//3),(,,(t),omegaA//2),(,,(u),"None"):}|`

{:(,"Column I",,"Column II"),((A),"Dimensional variable",(p),pi),((B),"Dimensionless variable",(q),"Force"),((C),"Dimensional constant",(r),"Angle"),((D),"Dimensionless constant",(s),"Gravitational constant"):}

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),33^(@)C),((B),"A and C are mixed",(q),52^(@)C),((C),"B and C are mixed",(r),50^(@)C),((D),"A,B and C all three are mixed",(s),46^(@)C),(,,(t),"None"):}

A particle is rotating in a circle of radius 1m with constant speed 4 m//s . In time 1s, match the following (in SI units) {:(,"Column I",,,"Column II"),((A),"Displacement",,(p),8 sin 2),((B),"Distance",,(q),4),((C),"Average velocity",,(r),2sin 2),((D),"Average acceleration",,(s),4 sin 2):}

Trajectory of particle in a projectile motion is given as y=x- x^(2)/80 . Here, x and y are in meters. For this projectile motion, match the following with g=10 m//s^(2) . {:(,"Column-I",,"Column-II"),((A),"Angle of projection (in degrees)",(P),20),((B),"Angle of velocity with horizontal after 4s (in degrees)",(Q),80),((C),"Maximum height (in meters)",(R),45),((D),"Horizontal range (in meters)",(S),30),(,,(T),60):}

For the velocity -time graph shown in figure, in a time interval from t=0 to t=6 s , match the following: {:(,"Column I",,,"Column II"),((A),"Change in velocity",,(p),-5//3 SI "unit"),((B),"Average acceleration",,(q),-20 SI "unit"),((C),"Total displacement",,(r),-10 SI "unit"),((D),"Acceleration ay t=3s",,(s),-5 SI "unit"):}

{:(,"Column I",,"Column II"),((A),"Base unit",(p),N),((B),"Derived unit",(q),hp),((C),"Improper unit",(r),"kgwt"),((D),"Practical",(s),"rad"),((E),"Supplementary unit",(t),kg):} (Note : Here it is given that you have to match one to one only)

A particle of mass m, kinetic energy K and momentum p collision head on elastically with another particle of mass 2 m at rest. After collision. : {:(,"Column I",,"Column II",),((A),"Momentum of first particle",(p),3//4 p,),((B),"Momentum of second particle",(q),-K//9,),((C ),"Kinetic energy of first particle",(r ),-p//3,),((D),"Kinetic energy of second particle",(s),(8K)/(9),),(,,,"None",):}

Match the following: {:(,"Column-I",,"Column-II"),((A),"Isobaric process",(p),"No heat exchange"),((B),"Isothermal process ",(q),"Constant pressure"),((C),"Isoentropy process",(r),"Constant internal energy"),((D),"Isochoric process",(s),"Work done is zero"):}

A balloon rises up with constant net acceleration of 10 m//s^(2) . After 2 s a particle drops from the balloon. After further 2 s match the following : ("Take" g=10 m//s^(2)) {:(,"Column I",,,"Column II"),((A),"Height of perticle from ground",,(p),"Zero"),((B),"Speed of particle",,(q),10 SI "units"),((C),"Displacement of Particle",,(r),40 SI "units"),((D),"Acceleration of particle",,(s),20 SI "units"):}

In the V-T graph shown in figure: {:(,"Column-I",,"Column-II"),((A),"Gas" A is ... and gas B is... ", E is ",(p),"monoatomic , diatomic"),((B),"P_(A)/P_(B) is ",(q),"diatomic , monoatomic"),((C),"n_(A)/n_(B) is " " ",(r),"gt1"),(,,(s),"lt1"),(,,(t),"cannot say any thing"):}