Calculate the ration of speed of sound in neon to that in water vapours at any temperature. Molecular weight on neon `=2.02xx10^(-2)kg//mol e` and for water vapours, molecular weight is `1.8xx10^(-2)kg//mol e`.

The ratio of speed of sound in neon to that in water vapours at any temperature (when molecular weight of neon is 2.02xx10^(-2)kg mol^(-1)

The ratio of speed of sound in neon to that in water vapours at any temperature (when molecular weight of neon is 2.02xx10^(-2)kg mol^(-1)

(a) Speed of sound in air 332 m/s at NTP. What will the speed of sound in hydrogen at NTP if the density of hydrogen at NTP is (1/16) that of air. (b) Calculate the ratio of the speed of sound in neon to that in water vapour any temperature. [Molecular weight if neon = 2,02 xx 10^(-2) kg//mol and for water vapours = 1.8 xx 10^(-2) kg//mol ]

(a) Speed of sound in air 332 m/s at NTP. What will the speed of sound in hydrogen at NTP if the density of hydrogen at NTP is (1/16) that of air. (b) Calculate the ratio of the speed of sound in neon to that in water vapour any temperature. [Molecular weight if neon = 2,02 xx 10^(-2) kg//mol and for water vapours = 1.8 xx 10^(-2) kg//mol ]

The ratio of speed of sound in monomatomic gas to that in water vapours at any temperature is. (when molecular weight of gas is 40 gm//mol and for water vapours is 18 gm//mol )

The ratio of speed of sound in monomatomic gas to that in water vapours at any temperature is. (when molecular weight of gas is 40 gm//mol and for water vapours is 18 gm//mol )

Prove, vapour density = 1 / 2 xx Molecular Weight

Calculate the edge length of the unit cell of sodium chloride given density of NaCI is 2.17 xx 10^(3) kgm^(-3) and molecular weight 58.5 xx 10^(-3)kg mol^(-1) .