In elliptical orbit of a planet, as the planet moves from apogee position to perigee position to perigee position, match the following columns
`{:(,"Column-I",,"Column-II"),("(A)","Speed of planet","(p)","Remains same"),("(B)","Distance of planet from centre of sun","(q)","Decreases"),("(C)","Potential energy","(r)","Increase"),("(D)","Angular momentum about centre of sun","(s)","Cannot say"):}`

If earth decreases its rotational speed. Match the following columns {:(,"Column-I",,"Column-II"),("(A)","Value of g at pole","(p)","Will remain same"),("(B)","Value of g at equator","(q)","Will increase"),("(C)","Distance of geostationary","(r)","Will decrease"),("(D)","Energy of geostationary satellite","(s)","Cannot say"):}

Match the following columns. (for a satellite in circular orbit) {:(,"Column-I",,"Column-II"),("(A)","Kinetic energy","(p)",-(GMm)/(2r)),("(B)","Potential energy","(q)",sqrt((GM)/(r))),("(C)","Total energy","(r)",-(GMm)/(r)),("(D)","Orbital speed","(s)",(GMm)/(2r)):}

Match the following {:(,"Column-I",,"Column-II"),("(A)","Kepler's first law","(p)",T^(2)propr^(3)),("(B)","Kepler's second law","(q)","Areal velocity is constant"),("(C)","Kepler's third law","(r)","Orbit of planet is elliptical"):}

Two concentric spherical shells are as shown in figure. Match the following columns {:(,"Column-I",,"Column-II"),("(A)","Potential at A","(p)","greater than B"),("(B)","Gravitational field at A","(q)","less than B"),("(C)","As one moves from C to D","(r)","Potential remains constant"),("(D)","As one moves from D to A","(s)","Gravitational field decreases"),(,,"(t)","None"):}

Match the following : {:(,"Column -I",,"Column -II"),((A),"Acceleration due to gravity",(p),"Kepler's law"),((B),"Law of periods",(q),"Vector quantity"),((C ),"Orbital speed",(r ),"Uniform near earth surface"),((D),"Gravitational potential",(s),"Is nearly zero at infinity"):}

Match the Column-I with Column-II : {:(,"Column-I",,"Column-II"),("(a)","Mole fraction","(p)","mol kg"^(-1)),("(b)","Molality","(q)","Depends on temperature"),("(c)","Molarity","(r)","Unitless"),("(d)","Normality","(s)","Independent of temperature"):}

Density of a planet is two times the density of earth. Radius of this planet is half. Match the following (as compared to earth) {:(,"Column-I",,"Column-II"),("(A)","Accleration due to gravity on this planet's surface","(p)","Half"),("(B)","Gravitational potential on the surface","(q)","Same"),("(C)","Gravitational potential at centre","(r)","Two times"),("(D)","Gravitational field strength at centre","(s)","Four times"):}

Match the following {:(,"Column-I",,"Column-II"),((A),"Enthalpy",(p),"Extensive property"),((B),"Entropy",(q),"H - TS"),((C),"Free energy",(r),"E + PV"),((D),"Pressure",(s),"Intensive property"):}

Match the following columns. |{:(,"Column I",,"Column II"),((A),"Constant positive acceleration",(p),"Speed may increase"),((B),"Constant negative acceleration",(q),"Speed may decrease"),((C ),"Constant displacement",(r ),"Speed is zero"),((D),"Constant slope of a-t graph",(s),"Speed must increase"),(,,(t),"Speed must decrease"):}|

A solid sphere is rotating about an axis shown in figure. An insect follows the dotted path on the circumference of sphere as shown in the figure. {:(,"Column-I",,"Column-II"),("(A)","Moment of inertia","(p)","Will remain constant"),("(B)","Angular velocity","(q)","Will first increase, then decrease"),("(C)","Angular momentum","(r)","Will first decrease then increase"),("(D)","Rotational kinetic energy","(s)","Will continuously decrease"),(,,"(t)","Will continuously increase"):}