`38 cm^(2) N_(2)` gas at 300K temperature and 96pa pressure. In 0.25g organic compound calculate the % of nitrogen. (1 atm .- 101.3 pa)

In Dumas method of estimation of nitrogen 3.88gm compound at 293K temperature and 746mm pressure 1.31 mL N_(2) gas. Calculate percentage of nitrogen. (Aqueor tension 6mm)

In Dumas method of estimation of nitrogen 3.88gm compound at 293K temperature and 746mm pressure 1.31 mL N_(2) gas. Calculate percentage of nitrogen. (Aqueor tension 6mm)

In Dumas' method for estimation of nitrogen, 0.3g of an organic compound gave 50mL of nitrogen collected at 300K temperature and 715 mm pressure. Calculate the percentage composition of nitrogen in the compound. (Aqueous tension at 300K = 15mm)

In Dumas' method for estimation of nitrogen, 0.3g of an organic compound gave 50mL of nitrogen collected at 300K temperature and 715 mm pressure. Calculate the percentage composition of nitrogen in the compound. (Aqueous tension at 300K = 15mm)

An ideal gas is enclosed in a closed container of 0.0083 m^3 at 300 K temperature and pressure of 1.6 xx 10^6 Pa. Find final temperature and pressure of the gas if 2.49 xx 10^4 J heat is supplied to the gas. Neglect expansion of the container. R=8.3 "J mol"^(-1) K^(-1)

At 400 K temperature, 200 mL N_(2) has pressure 1.5 bar. Find the volume of N_(2) gas at STP.

Density of Neon gas at 350 K temperature is 0.9 g L^(-1) then calculate its pressure ?

A diatomic gas is enclosed in a vessel fitted with massless movable piston. Area of cross section of vessel is 1m^2 . Initial height of the piston is 1m (see the figure). The initial temperature of the gas is 300K. The temperature of the gas is increased to 400K, keeping pressure constant, calculate the new height of the piston. The piston is brought to its initial position with no heat exchange. Calculate the final temperature of the gas. You can leave answer in fraction.

1 mole of an ideal gas at 27^@ C temperature and 2 atm pressure is compressed adiabatically until its final temperature became 848.4 K. Find the total work done on the gas.

The rate constant of a reaction is 2xx10^(-3) min^(-1) at 300 K temperature .By increase in temperature by 10 K its value becomes doubl. Calculate energy of activation .Calculation the rate constant at 320 K.