The graph between log `R` and log `A` where `R` is the nuclear radius and `A` is the mass number is.

The graph between log k versus 1//T is a straight line.

The graph between log t_(1//2) and log a at a given temperature is Rate of this reaction will …….with passage of time

The slope of the graph between log P and log V at constant temperature for a given mass of gas is

The graph of 1n (R/R_0) versus 1n A (R = radius of a nucleus and A = its mass number) is

What is the type of graph between log P and log V at constant temperature?

Following is the graph between log T_(50) and log a ( a = initial concentration) for a given reaction at 27^(@)C . Hence order is

Following is the graph between log t_(1//2) and log a ( a initial concentration) for a given reaction at 300K Find the order of reaction.

A graph between log t_((1)/(2)) and log a (abscissa), a being the initial concentration of A in the reaction For reaction Ato Product, the rate law is :

A graph between log t_((1)/(2)) and log a (abscissa), a being the initial concentration of A in the reaction For reaction Ato Product, the rate law is :

from the relation R=R_0A^(1//3) , where R_0 is a constant and A is the mass number of a nucleus, show that the nuclear matter density is nearly constant (i.e., independent of A ).