Chemical bond results when between combining atoms :
`F_(A)` = attraction force
`F_(R)`=repulsion forces
P.E. = potential energy

When total attractive forces between two atoms approaching each other is greater than total repulsive force then, potential energy of the system ________.

Nature Of Forces|Potential Energy|Relation Between Force And Potential Energy

Nature Of Forces|Potential Energy|Relation Between Force And Potential Energy

Nature Of Forces|Potential Energy|Relation Between Force And Potential Energy

Relation Between Potential Energy And Conservative Forces

Assertion: Nuclei above bismuth-209 are unstable irrespective o f their N : Z ratio. Reason: The force of repulsion between protons is greater than the attractive force between nucleons in nuclei above bismuth-209.

In a conservative force field we can find the radial component of force from the potential energy function by using F = -(dU)/(dr) . Here, a positive force means repulsion and a negative force means attraction. From the given potential energy function U(r ) we can find the equilibrium position where force is zero. We can also find the ionisation energy which is the work done to move the particle from a certain position to infinity. Let us consider a case in which a particle is bound to a certain point at a distance r from the centre of the force. The potential energy of the particle is : U(r )=(A)/(r^(2))-(B)/(r ) where r is the distance from the centre of the force and A andB are positive constants. Answer the following questions. If the total energy of the particle is E=-(3B^(2))/(16A) , and it is known that the motion is radial only then the velocity is zero at