Course Outcomes:-

After successful completion of the course, the student is expected to:

CO1: Analyze different types of matter depending on nature of chemical bonds and their properties.

CO2: Able to analyze crystal structures by applying crystallographic parameters.

CO3: Able to determine the crystal structure by analysis of XRD data.

CO4: Able to evaluate and analyze the chemical and optical properties of solids.

CO5: Analyze electron transport and energy related problems by applying quantum mechanical principles.

CO6: A brief idea about crystalline and amorphous substances, about lattice, unit cell, miller indices, reciprocal lattice, concept of Brillion zones and diffraction of X-rays by crystalline materials.

CO7: At knowledge of different types of magnetism from diamagnetism to ferromagnetism and hysteresis loops and energy loss.

Skills to be learned:-

• Learn basics of crystal structure and physics of lattice dynamics
• Learn the physics of different types of material like magnetic materials, dielectric materials, metals and their properties.

• Understand the physics of insulators, semiconductor and conductors with special emphasis on the elementary band theory of semiconductors.
• Comprehend the basic theory of superconductors. Type I and II superconductors, their properties and physical concept of BCS theory.