In two separate experiments equal quantities of alkyl halide, `C_4H_9Cl`, were treated at the same temperature with equal volume of 0.1 molar and 0.2 molar solutions of NaOH respectively. In the two experiments, `t_(1//2)` of the two reaction were the same. The most likely structure of halide is

Equal amount of an RCl(C_4 H_9Cl) is reacted at the same temperature with equal volume of 0.2 M and 0.4 M solution of KOH , respectively, in two separate experiments. The time taken for the reaction of 50 % of (C_4 H_9 Cl) was found to be same, the alkyl halide is :

In two vessels of 1 litre each at athe same temperature 1g of H_(2) and 1g of CH_(4) are taken. For these gases:

A cotainer contains CO and H_(2) in equal molar concentrations at the same temperature. What is the ratio of the average molar kinetic energy of the two gases ?

The resistance of two electrolytes X and Y ere found to be 45 and 100 respectively when equal volumes of both the solutions were taken in the same cell in two different experiments. If equal volumes of these solutions are mixed in the same cell, what will be the conductance of the mixture?

Find the molarity of 1.0 L solution of 90% H_2SO_4 by weight/volume. The density of the solution is 1.47

In two separate set-ups of the Young's double slit experiment, fringes of equal width are observed when lights of wavelength in the ratio of 1:2 are used. If the ratio of the slit separation in the two cases is 2:1 , the ratio of the distance between the plane of the slits and the screen in the two set-ups are

If R_(1) and R_(2) are the resistance of two solution of equal volume, then the conductance of the mixture in the same conductivity cell is:

Two solutions of KNO_(3) and CH_(3)COOH are prepared separately. The molarity of both is 0.1 M and osmotic pressure is P_(1) and P_(2) , respectively. The correct relationship between the osmotic pressure is

Equal masses of the two gases A and B are kept in two separate vessels at the same temperature and pressure. If the ratio of the molecular masses of A and B is 2 : 3 , find the ratio of the volumes of the two vessels.

For a given velocity, a projectile has the same range R for two angles of projection. If t_(1) and t_(2) are the time of flight in the two cases, then t_(1)*t_(2) is equal to