Select the correct statement(s).
I Kinetic energy is zero at `0^@C`
II.RMS velocity of `O_2` at `27^@C` is =` sqrt( (3 xx 8.314 xx 300)/(32) ) ms^(-1)`
III. Distribution of molecules is very small when `u to 0` or ` u to oo`
The correct choice is:

Calculate the increase in velocity of sound when the temperature changes from -3^@C to 27^@C .Velocity of sound at -3^@ C is 300 ms^(-1) .Given sqrt(10)=3.2

For each of the equation four choices have been provided .select the correct alternative Choose the correct statement: (a) when heat energy is given to ice at 0^(@)C th peotential energy of the molecules of ice increases (b) heat added to ice at 0^(@)C does not increase the kinetic energy and hence thereis no rise of temperature

Kinetic energy of oxygen molecule at 0^(@) C is 9.4 xx 10^(-21) j . Calculate Avogadro's number, when R = 8.31 J "mole"^(-1) K^(-1) .

A technique called photelectron spectroscopy is used to measure the I.P of atoms. A same is irradiated with U.V light, and electrons are ejected from the valence shell. The kinetic energy of the ejected electrons are measured. Since, the energy of the U.V. photon and the kinetic energy of the ejected electrons are known, we can write hv = I.P. + (1)/(2) m u^(2) Where v is the frequency of the U.V light, and m and u are mass and velocity of the electron respectively. In one experiment the kinetic energy of the ejected electron from potassium is found to be. 5.34 xx 10^(-19) J using U.V. source of wavelength 162 nm. Calculate I.E. of potassium (h = 6.62 xx 10^(-34) J-s, c= 3 xx 10^(8) m " / " s) .

The molecules of a given mass of gas have a rms velocity of 200 m//sec at 127^(@)C and 1.0 xx 10^(5) N//m^(2) pressure. When the temperature is 127^(@)C and pressure is 0.5 xx 10^(5) N//m^(2) the rms velocity in m//sec will be

Calculate the uncertainty in the position of an electron if uncertainty in its velocity is (i) 0.001 % (ii) Zero. (The mass of electron = 9.1 xx 10^(-31) kg , velocity of electron = 300 ms^(-1))

The density of carbon dioxide gas at 0^(@)C and at pressure 1.0 xx 10^(5) Nm^(-2) is 1.98 kg m^(-3) . Find the rms velocity of its molecules at 0^(@)C and also at 30^(@)C , assuming pressure to be constant.

The average kinetic energy of a hydrogen molecule at 27^(@)C is 9.3 xx 10^(-21) J . The mass of hydrogen molecule is 3.1 xx 10^(-27) kg . (i) Determine the average kinetic en-ergy at 227^(@)C . (ii) Determine the root mean square speed of hydrogen molecule at 27^(@)C .