These diagrams represent the potential energy `U` of a diatomic molecule as a function of the inter-atomic distance `r`. The diagram corresponds to stable molecule found in nature is.

The potential energy curve for the H_2 molecule as a function of internuclear distance is :

The potential energy U of diatomic molecules as a function of separation r is shown in figure. Identify the correct stateement.

The potential energy U between two molecules as a function of the distance X between them has been shown in the figure. The two molecules are

The potential energy U between two molecules as a function of the distance X between them has been shown in the figure. The two molecules are

The potential energy U between two molecules as a function of the distance X between them has been shown in the figure. The two moleucles are

The potential energy (U) of diatomic molecule is a function dependent on r (interatomic distance )as U=(alpha)/(r^(10))-(beta)/(r^(5))-3 Where alpha and beta are positive constants. The equilrium distance between two atoms will be ((2alpha)/(beta))^((a)/(b)) where a=___

The following diagrams represent the nitrogenous bases of nucleic acid molecules. Identify the correct combination :

The potential energy U of two atoms of a diatomic molecule as a function of distance r between the atoms as shown in the given figure. Read the following statement carefully. 1. The equilibrium separation distance between the atoms is equal to r_(2) . 2. At r = r_(1) , the force between the atom is repulsive. 3. For r gt r_(2) , the force between the atoms is attractive Which of the above statements is true ?