The ratio between enrgies of `16 g` of `O_(2)` and `28 g` of `N_(2)` respectively at `300 K` will be

At T(K), the ratio of kinetic energies of 4g of H_(2) (g) and 8g of O_(2) (g) is

The ratio between the number of molecules in 2 g of hydrogen and 32 g of oxygen is: [Given that H = 1, O = 16]

The critical temperature of O_(2) and N_(2) are 155K and 126 K respectively Calculate the ratio of reduced temperature of O_(2) and N_(2) at 300 K .

The critical temperature of O_(2) and N_(2) are 155K and 126 K respectively Calculate the ratio of reduced temperature of O_(2) and N_(2) at 300 K .

The ratio between the RMS velocity of N_(2) at 200K and that of CO at 800 K is (molecular mass of N_(1) = 28g mol^(-1) , molecular mass of CO = 28g mol^(-1) )

The ratio between the most probable speed of N_(2) at 400 K and CO at 800 K is (molar mass of N_(2)=28 " g mol" ^(-1) , molar mass of CO=28 " g mol "^(-1) )

At 800 K in a sealed vessel for the equilibrium N_(2)(g) + O_(2) (g) hArr 2NO(g), the equilibrium concentrations of N_(2) (g), O_(2)(g) and NO(g) are respectively 0.36xx10^(-3) M, 4.41 xx 10^(-3) M and 1.4 xx 10^(-3) M. Calculate the value of K_(c) for the reaction NO(g) hArr 1//2 N_(2)(g) +1//2 O_(2) (g) at 800 K is :

Two bulbs A and B contains 16 g O_(2) and 16 g O_(3) , respectively. Which of the statements are ture?

Two bulbs A and B contains 16 g O_(2) and 16 g O_(3) , respectively. Which of the statements are ture?