`{:(,"Type of Equilibrium",,"Conditions"),((1),"Dynamic Equilibrium",(a),"Net force and Net torque are zero"),((2),"Static Equilibrium",(b),"Linear Momentum is constant"),((3),"Rotational Equilibrium",(c),"Linear Momentum and Angular"),(,,,"momentum are constant"),((4),"Translation Equilibrium",(d),"Net torque is zero"):}`

When no extemal torque acts on the body, the net angular momentum of a rotating body

{:((1),"Angular Momentum",(a),mr^(2)),((2),"Torque",(b),I omega),((3),"Angular Acceleration",(c),(dL)/(dt)),((4),"Moment of Inertia",(d),(d omega)/(dt)):}

For reaction, 2A+BhArr2C,K=x . Equilibrium constant for ChArrA+1//2B will be

A body is in translational equilibrium under the sctin of coplanar forces. If the torque of these force is zero about a point is it necessary that it will also be zero abut any other point?

Match the following : {:("Column I",,"Column II"),("1. Newton's I law",-,"(a) Propulsion of a rocket"),("2. Newton's II law",-,"(b) Stable equilibrium of a body"),("3. Newton's III law",-,"(c ) Law of force"),("4. Law of conservation of momentum",-,"(d) Flying nature of bird"):}

{:(1,"Heat",-,(a),"Joule"),(2,"Thermometer",-,(b),"Heating"),(3,"The SI of heat",-,(c),"Temperature"),(4,"Cool a cup of cofee, adding cold milk",-,(d),"Energy"),(5, "gain by heat by a body",-, (e), "thermal equilibrium"):} {:(1,"Boyle's Law",-,(a),K_(B)=(R)/(n)),(2,"Absolute Scale",-,(b),V prop t),(3,"Charle's Law",-,(c),P prop (1)/(V)),(4,"Boltzmann constant",-,(d),Vprop n),(5, "Avagadro's Law",-, (e), "OK (zero kelvin)"):}