`sqrtv` versus Z graph for characteristic X-rays is as shown in figure. Match the following :

`{:(,"Column I",,"Column II"),((A),"Line-1",(p),L_(alpha)),((B),"Line-2",(q),L_(beta)),((C),"Line-3",(r),K_(alpha)),((D),"Line-4",(s),K_(beta)):}`.

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",):}

{:(,"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"):}

For component of vector vec(A)=(3hat(i)+4hat(j)-5hat(k)) , match the following table: {:(,"Column I",,,"Column II"),((A),"Along y-axis",,(p),5 "unit"),((B),"Along another vector"(2hat(i)+hat(j)+2hat(k)),,(q),4 "unit"),((C),"Along another vector" (6hat(i)+8hat(j)-10hat(k)),,(r),"Zero"),((D),"Along another vector" (-3hat(i)-4hat(j)+5hat(k)),,(s),"None"):}

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"):}

In the following, [x] denotes the greatest integer less than or equal to x. Match the functions in Column I with the properties Column II. {:(,"Column I",,"Column II"),((A),x|x|,(p),"continuous in (-1, 1)"),((B),sqrt(|x|),(q),"differentiable in (-1, 1)"),((C),x + [x],(r),"strictly increasing (-1, 1)"),((D),|x-1|+|x + 1|,(s),"not differentiable at least at one point in (-1, 1)"):}

Suggest suitable match between fuction given in the first column and its description given in the second column. {:("Column-I","Column-II"),((A) sin""(390^(@)),(P)" Positive"),((B)sin""(-30^(@)),(Q)" Negative"),((C)cos""120^(@),(R)" Zero"),((D) tan""(-120^(@)),(S)" Modulus is greater"):}

An initially stationary box on a frectionless floor explodes into two places, places A with mass m_(A) and piece B with mass m_(B) . Two pieces then move across the floor along x-axis. Graph of position versus time for the two pieces are given. Baed on the above question, Match column A with the column B. {:(,"Column A",,"Column B (Graph number)",),((P),m_(A) = m_(B),,I,),((Q),m_(A) gt m_(B),,II,),((R ),m_(A) lt m_(B),,III,),(,,,IV,),(,,,V,),(,,,VI,):}

Trajectories are shown in figure for three kicked footballs. Initial vertical & horizontal velocity components are u_(y) and u_(x) respectively. Ignoring air resistance, choose the correct statement from Column-II for the value of variable in Column-I. {:(,"Column-I",,"Column-II"),((A),"time of flight",(P),"greater for A only"),((B),u_(y)//u_(x),(Q),"greater for C only"),((C),u_(x),(R),"equal for A and B"),((D),u_(x)u_(y),(S),"equal for B and C"):}

Four rods of material X and three rods of material Y are connected as shown in figure. All the rods are of identical lengths and cross-sectional area. Given thermal resistance of rod of material X, R_(x) = R and thermal conductivities of materials are related by relation K_(Y) = 2K_(X) . {:(,"Column-I",,"Column-II"),((A),"Thermal resistance between B and E" ,(p),(500)/(13).^(@)C ),((B),"Thermal resistance between A and F" ,(q),(700)/(13).^(@)C ),((C),"Temperature of junction B" ,(r),(2R)/(3)), ((D),"Temperature of junction D" ,(s),(13R)/(6)):}