Decomposition of X exhibits a rate constant of `0.05 mu g` / year. How many years are required for the decomposition of `5 mu g` of X into `2.5 mu g` ?

Decomposition of X exhibits a rate constant of 0.5 mu g // year. How many years are required for the decomposition of 5mu g of X into 2.5 mu g ?

Decomposition of X exhibits a rate constant of 0.5 mu g // year. How many years are required for the decomposition of 5mu g of X into 2.5 mu g ?

How many grams of carbon dioxide is set free by the decomposition of 20 g of calcium carbonate?

How many moles of oxygen gas can be produced during electricity decomposition of 180 g of water ?

The activity of 1 g radium is found to be 0.5. Calculate the half-life period of radium and the time required for the decay of 2 g of radium to give 0.25 g of radium (atomic mass off radium = 226).

Consider a first order gas phase decomposition reaction given below: A (g) to B(g) +C(g) The initial pressure of the system before decomposition of A was pi. After lapse of time 'T', total pressure of the system increased by x units and became ' p_t '. The rate constant k for the reaction is given as

Consider a first order gas phase decomposition reaction given below: A(g) to B_(g) + C_(g) The initial pressure of the system before decomposition of A was p_(i) . After lapse of time t' . Total pressure of the system increased by x units and became P_(t) . the rate constant k for the reaction is given as

Substance A_(2)B(g) can undergoes decomposition to form two set of products : If the molar ratio of A_(2)(g) to A(g) is 5 : 3 in a set of product gases, then the energy involved in the decomposition of 1 mole of A_(2)B(g) is :