If the atomic weight of carbon were set at 24 amu, the value of the Avogadro constant would be

The atomic masses of He and Ne are 4 and 20amu respectively. The value of the de-Broglie wavelength of He gas at -73^(@)C is 'M' times that of the de Broglie wave length of Ne at 727^(@) the value of 'M' is

A atomic masses of He and Ne are 4 and 20 amu respectively. The value of the de Brogile wavelength of He as at -73^(@) is ''M'' times that of the de Brogile wavelength of Ne at 727^(@)C . M is:

If the value of Avogadro number is 6.023 xx 10^23 "mol"^(-1) and the value of Boltzmann constant is 1.380 xx 10^(-23) JK^(-1) , then the number of significant digits in the calculated value of the universal gas constant is [Hint: Since k and N, both have four significant figures, the value of R is also rounded off up to four significant figures.]

Radium disintegrates at an average rate of 2.24 xx 10^13 alpha -particles per minute. Each a-particle takes up two electrons from the air and becomes a neutral helium atom. After 420 days, helium gas collected was 0.5 rnL, measured at 27°C and 750 mmHg. Calculate the Avogadro constant.

At '473 K', equilibrium constant Kc for decomposition of phosphorus pentachloride 'PCl_5' is '8.3 xx 10^(-3) .' If decomposition is depicted as, 'PCl_5(g) hArr PCl_3(g)+Cl_2(g) , Delta, H^circ=124.0 kJmol^(-1)' a. write an expression for 'K_c' for the reaction b. what is the value of 'K_c' for the reverse reaction at the same temperature? c. what would be the effect on 'K' c if (i) more 'PCl_5' is added (ii) pressure is increased. (iii) the temperature is increased?

2 xx 10^8' atoms of carbon are arranged side by side. Calculate the radius of carbon atom if the length of this arrangement is '2.4 cm .'

The reaction of A_(2) and B_2 follows the equation A_(2)(g) + B_(2)(g) to 2AB(g) . The following data were observed The value of rate constant for the above reaction is:

A compound which contains one atom of X and two atoms of Y for each three atoms of Z is made by mixing 5.00 g of X, 1.15 xx 10^(23) atoms of Y and 0.03 mole of Z atoms. Given that only 4.40 g of the compound is formed. Calculate the atomic weight of Y if the atomic weights of X and Z are 60 and 80 amu respectively.