# Physics

### Physics Program: B.Sc. Part-I Sem-I Course: DSC-2A Mechanics-II

##### Course Objective
• To understand Newton’s law of gravitation and to study an application of its laws, in daily life or universal applications.
• To understand the problem-solving method. How to solve a given problem, related to that particular phenomenon.
• To study the elastic property of material & how we apply it in the construction field, we study elastic limit of any material.
• To study the Surface tension phenomenon of liquid & how to measure it experimentally.
##### Course Outcomes
###### Students are able:
• To understand Newton’s law of gravitation and its applications.
• To understand how to solve a given problem.
• To understand the elastic property of a material and its applications.
• To understand Surface tension phenomenon of liquid and method to find it forgiven particular liquid.
##### Course Objectives
###### This paper is designed:
• To establish the first grounding in vector analysis and electrostatics.
• To promote the understanding of basic concepts in vectors.
• To provide the necessary background for applications of scalar and vector product and divergence, gradient and curl.
• To clarify the concepts of electric flux, Gauss’s theorem of electrostatics, electric dipole, etc.
• To encourage the students to solve the examples based on the applications of vectors.
• To enhance the thinking of students and motivate them to relate the concepts practically.
##### Course Outcomes
###### Students are able:
• To solve the problems and interpret the examples.
• To understand the basics of vector algebra and electrostatics.
• To develop a comprehension of the basis of broad knowledge in electrostatics.
• To build critical thinking and develop problem-solving skills.
• To understand the theorems such as Gauss divergence theorem, Stoke’s theorem of vectors, Gauss’s theorem in dielectrics, etc.
##### Course Objectives
###### This paper is designed:
• To establish the first grounding in electricity and magnetism.
• To promote the understanding of basic concepts in AC circuits, Magnetism etc.
• To motivate, explain and derive the integral form of Maxwell’s equations.
• To provide the necessary background for applications of electromagnetic waves.
• To make students understand the laws of magnetism, magnetic properties of materials, Faraday’s laws, Maxwell’s equations etc.
• To solve the problems and answer the conceptual questions applying Maxwell’s equations, Faraday’s laws etc.
##### Course Outcomes
###### Students are able:
• To solve the problems and interpret the examples.
• To understand the basics of Electricity and laws of magnetism.
• To understand the complex numbers, LCR circuit, Biot-Savart’s law, Maxwell’s equations, Faraday’s law etc.
• To develop a comprehension of the current basis of broad knowledge in electricity.
• To build a critical thinking and develop problem-solving skills.
##### Course Objectives
###### This paper is designed:
• To provide the necessary background for applications of electronics in day-to-day life.
• To understand problem-solving methods and provide basic knowledge of electronics.
• To understand the concepts of semiconductor materials, Boolean algebra, basic gates, EX-OR, EX-NOR gates, half adder and full adder.
• To give a familiarization of various electronic components.
• To analyze the components associated with digital and analog electronic systems.
• To make the students read, understand and solve the examples.
##### Course Outcomes
###### Students are able:
• To solve the problems and interpret the examples.
• To maintain digital and analog devices and circuits.
• To analyze components associated with digital and analog electronic systems.
• To assist in the design and test logic circuits on their own.
• To understand the concepts of digital and analog electronics.
• To familiarize the various logic circuits and other electronic components.
##### Course Objectives
###### This paper is designed:
• To demonstrate an understanding of the fundamental postulates and principles of special relativity and Quantum Mechanics.
• To apply the principles of Quantum mechanics to predict the results of measurements in simple systems such as a free particle, potential well, etc.
• To solve the problems and answer conceptual questions applying the principles of Quantum Mechanics, Atomic Physics and Special Relativity.
• To provide a simple and clear explanation of main physical concepts and motivate them to relate the concepts practically.
• To clarify these concepts and theories through a broad range of current applications and examples.
• To enhance critical thinking, analytical reasoning and problem-solving skills.
• To discuss the problems confronting Modern Physics in the 21st century.
##### Course Outcomes
###### Students are able:
• To understand the basic principle of the special theory of relativity.
• To apply practical experience gained in the experimental methodologies used in some experiments.
• To understand nuclear reactions.
• To critically assess a range of applications of nuclear technology.
• To understand the intuitive ideas of the Relativity, Quantum Physics, and Nuclear Physics.
• To develop a comprehension of the current basis of broad knowledge in Modern Physics.
• To build critical thinking and problem-solving skills.