1)Explain the different types of overlap taking place during bond formation by giving example.
Answers
Answer:
s-s overlapping and give its examples
When two half filled s - orbitals of two different atoms containing unpaired electrons with opposite spin overlap with each other it is called as s-s overlap. example, formation of Hydrogen molecule
Explanation:
s-s overlapping and give its examples
When two half filled s - orbitals of two different atoms containing unpaired electrons with opposite spin overlap with each other it is called as s-s overlap. example, formation of Hydrogen molecule
Answer:
The valence bond theory was put forward by Heitler and London in 1927. It was later improved and developed by L. Pauling and J.C. Slater in 1931. The valence bond theory is based on the knowledge of atomic orbitals and electronic configurations of elements, overlap criteria of atomic orbitals and stability of molecule. The main points of valence bond theory are (i) Atoms do not lose their identity even after the formation of the molecule. (ii) The bond is formed due to the interaction of only the valence electrons as the two atoms come close to each other. The inner electrons do not participate in the bond formation. (iii) During the formation of bond, only the valence electrons from each bonded atom lose their identity. The other electrons remain unaffected. (iv) The stability of bond is accounted by the fact that the formation of bond is accompanied by release of energy. The molecule has minimum energy at a certain distance between the atoms known as intemuclear distance. Larger the decrease in energy, stronger will be the bond formed. Valence bond Treatment of Hydrogen Molecule: Consider two hydrogen atoms A and B approaching each other havingnuclei H and H and the corresponding electrons e and e respectively. When atoms come closer to form molecules new forces begin to operate. (a) The force of attraction between nucleus of atom and electron of another atom. (b) The force of repulsion between two nuclei of the atom and electron of two atomsRead more on Sarthaks.com - https://www.sarthaks.com/122038/briefly-describe-the-valence-bond-theory-covalent-bond-formation-taking-example-hydrogen
Explanation:
Fig. (a) Two hydrogen atoms at a large distance and hence, no interaction, (b) Two hydrogen atom closer to each other atomic orbitals begin to interact, (c) Attractive and repulsive forces in hydrogen atoms when interaction begins. In case of hydrogen: Figure ‘a’ shows that two hydrogen atoms are at farthest distances and their electron distribution is absolutely symmetrical. (a) When two hydrogen atom start coming closer to each other, the electron cloud becomes distorted and new attractive and repulsive forces begin to operate as shown in figure ‘c’ (b) In figure ‘c’ dotted lines show attractive forces present in atom already and bold lines show the new attractive and repulsive forces. (c) It has been found experimentally that the magnitude of net attractive forces is more than net repulsive forces. Thus stable hydrogen molecule is formed. Potential energy diagram for formation of hydrogen molecules: When two hydrogen atoms are at farther distance, there is no force operating between them, when they start coming closer to each other, force of attraction comes into play and their potential energy starts decreasing. As they come closer to each other potential goes on decreasing, but a point is reached, when potential energy acquires minimum value. Note: (a) This distance corresponding to this minimum energy value is called the distance of maximum possible approach, i.e. the point which corresponds to minimum energy and maximum stability. (b) If atoms come further closer than this distance of maximum possible approach, then potential energy starts increasing and force of repulsion comes into play and molecules starts becoming unstable.Read more on Sarthaks.com - https://www.sarthaks.com/122038/briefly-describe-the-valence-bond-theory-covalent-bond-formation-taking-example-hydrogen
