Statement-1: Kepler's law of areas is equivalent to the law of conservation of angular momentum
Statement-2: Areal velocity `(dA)/(dt)=(L)/(2m)=` constant

STATEMENT -1 : Kepler's second law is the consequence of law of conservation of angular momentum. STATEMENT -2 : In planetary motion, the momentum, angular momentum and mechanical energy is conserved. STATEMENT -3 : The gravitational field of a circular ring is maximum at a point upon axis at distance (R )/(sqrt(2)) from the centre, where R is the radius of ring.

Assertion: Kepler's second law can be understood by conservation of angular momentum principle. Reason: Kepler's second law is related with areal velocity which can further be proved to be used on coservation of angular momentum as (dA//dt)=(r^(2)omega)//2 .

._(+1)e^@ + ._(-1)e^@ to 2gamma The above equation satisfies the law of conservation of

Statement-1: Ampere's law cannot be used determine magnetic field due a current carrying wire of finite length Statement-2: Ampere's law is not valid for wires finite length

Read the given statements and select the correct option Statement 1 : The law of segregation is one of the most important contributions to the biology Statement 2 : It introduced the concept of heredity factors as discrete physical entities which do not become blended.

STATEMENT-1 : Radius of circular orbit of a satellite is made two times, then its areal velocity will also becomes two times. because STATEMENT -2 : Areal velocity is given as (dA)/( dt)= ( L)/( 2m)= ( mvr)/( 2m) .

Statement-1 : The linear momentum vecP and velocity vectors vecv are always parallel to each other. Also the angular momentum vecL and angular velocity vecomega are always parallel to each other. Statement-2 : vecP=mvecv , where m is the mass of the body and angular momentum (vecL_(P)) of a body about a fixed point P is I_(cm)vecomega+mvecr_(cm.p)xxvecv_(cm) , where I_(cm) is the moment of inertia of the body. vecomega is the angular velocity, vecv_(cm) is the velocity of center of mass of the body and vecr_(cm.p) is the position of center of mass of the body with respect to point P .

Statement - 1 : A particle moves with a constant velocity parallel to the x-axis. Its angular momentum w.r.t. the origin will remains constant. Because Statement - 2 : Angular momentum is defined as vec(L) = vec(r) xx vec(P)

Statement-1 : The third law of thermodynamics implies that absolute zero cannot be reached. Statement-2 : Delta G^(@) for an ideal gas reaction is a function of temperature. Statement-3 : The adiabatic expansion of a gas into a vacuum is spontaneous.

Statement-1 : It is not necessary for a particle to move in a circular path to define angular momentum. It can be defined about any point in space. Statement-2 : Particle moving in a straight line has non-zero angular momentum about a point which is not lying on the path of the particle.