Distribution of molecules with velocity is represented by the curve

Velocity corresponding to point A is : `sqrt((3RT)/(M))`, `sqrt((2RT)/(M))`, `sqrt((8RT)/(pi M))`, `sqrt((RT)/(M))`

The eccentricity of the conic ((x+2)^(2))/(7)+(y-1)^(2)=14 is a) sqrt((7)/(8)) b) sqrt((6)/(17)) c) sqrt(3)/(2) d) sqrt((6)/(7))

The area bounded by the curves y = - x^(2) + 3 and y = 0 is a) sqrt(3)+1 b) sqrt(3) c) 4sqrt(3) d) 5sqrt(3)

If the point (a,b) on the curve y= sqrt(x) is close to the point (1,0) , then the value of ab is a) 1/2 b) (sqrt2)/(2) c) 1/4 d) (sqrt2)/(4)

In Argand plane, the point corresponding to ((1-isqrt3)(1+i))/((sqrt3+i)) lies in which quadrant?

The value of "sin"(31)/(3)pi is a) (sqrt3)/(2) b) (1)/(sqrt2) c) (-sqrt3)/(2) d) (-1)/(sqrt2)

If the energy of H-atom in the ground state is-E, the velocity of photo-electron emitted when a photon having energy E_(rho) strikes a stationary Li^(2+) ion in ground state, is given by: v=sqrt((2(E_(rho)-E))/(m)) , v=sqrt((2(E_(rho)+9E))/(m)) , v=sqrt((2(E_(rho)-9E))/(m)) , v=sqrt((2(E_(rho)-3E))/(m))

The ratio of r.m.s. velocity and average velocity of a gas molecule at a particular temperature is

The rms velocity of an ideal gas at 27° is 0.3 m/s. Its rms velocity at 927° C in m/s is

Find the point at which the tangent to the curve y=sqrt(4 x-3)-1 has its slope 2/3