In equation ` p = 1/3 alpha v_(r m s)^(2) `, the term (prop) represents dencity of gas.
`v_(r m s) = sqrt (3 R T)/(M)`.

Statement-1: In equation P=(1)/(3)alphaV_(rms)^(2) , the term alpha represents density of gas. ltBrgt Statement-2: V_(rms)=sqrt((3RT)/(M)) Statement-3: Rotational kinetic energy of a monoatomic gas is zero.

If in an AP, S_(n)= qn^(2) and S_(m) =qm^(2) , where S_(r) denotes the of r terms of the AP , then S_(q) equals to

Blocks P and R starts from rest and moves to the right with acceleration a_(p) = 12t m//s^(2) and a_(R) = 3 m//s^(2) . Here t is in seconds . The time when block Q again comes to rest is

The R.M.S. speed of oxygen molecules at temperature T (in kelvin) is "v m s"^(-1) . As the temperature becomes 4T and the oxygen gas dissociates into atomic oxygen, then the speed of atomic oxygen

If s = t + sqrt((r^(3))/(q)) , what is the value of r in terms of q, s and t ?

Let T_r a n dS_r be the rth term and sum up to rth term of a series, respectively. If for an odd number n ,S_n=na n dT_n=(T_n-1)/(n^2),t h e nT_m ( m being even)is 2/(1+m^2) b. (2m^2)/(1+m^2) c. ((m+1)^2)/(2+(m+1)^2) d. (2(m+1)^2)/(1+(m+1)^2)

Two poles are a metres apart and the height of one is double of the other. If from the middle point of the line joining their feet an observer finds the angular elevations of their tops to be complementary, then the height of the smaller is (a) sqrt(2)am e t r e s (b) a/(2sqrt(2))m e t r e s (c) a/(sqrt(2))m e t r e s (d) 2am e t r e s

If in an A.P., S_n=n^2p and S_m=m^2p , where S_r denotes the sum of r terms of the A.P., then S_p is equal to 1/2p^3 (b) m n\ p (c) p^3 (d) (m+n)p^2

A charged particle enters a uniform magnetic field with velocity v_(0) = 4 m//s perpendicular to it, the length of magnetic field is x = ((sqrt(3))/(2)) R , where R is the radius of the circular path of the particle in the field. Find the magnitude of charge in velocity (in m/s) of the particle when it comes out of the field.

If 2r=s and 24t=3s , what is the r in terms of t?