PHY101: Physics
PHY101 Content:
Classical mechanics, studies how forces affect the motion of things. This is also frequently referred to as Newtonian mechanics. The study of charges' behavior in the context of electric and magnetic fields, as well as how charges may generate these fields, is the goal of electromagnetism.
Thermal physics is the study of the properties of heat and the modifications that the addition of heat makes to matter. A major focus of quantum mechanics is the physics of tiny things like atoms, nuclei, quarks, etc. Due to time constraints, quantum mechanics will only be briefly discussed.
The category for this course PHY101 is Physics, and the level is undergraduate. The contents of this course PHY101 are mentioned in the below list:
- Introduction to Physics
- Kinematics
- Force and Newtons Laws
- Applications Of Newtons Laws
- Work And Energy
- Conservation Of Energy
- Momentum
- Collisions
- Rotational Kinematics
- Physics Of Many Particles
- Angular Momentum
- Equilibrium Of Rigid Bodies
- Oscillations
- Physics Of Materials
- Physics Of Fluids
- Physics Of Sound
- Wave Motion
- Gravitation
- Electrostatics
- Electric Potential Energy
- Capacitors And Currents
- The Magnetic Field
- Electromagnetic Induction
- Alternating Current
- Electromagnetic Waves
- Light etc.
Credit Hours:
Credit hours for this course PHY101 are 3.
PHY101 Handouts:
PHY101 Past Papers:
PHY101 Midterm Past Papers:
PHY101 midterm past papers will be available soon.
PHY101 Final Term Past Papers:
PHY101 final term past papers will be available soon.
PHY101 Assignments:
PHY101 assignments will be available soon.
PHY301: Physics
PHY301 Content:
Computers, electronics, and other electrical devices all rely on various electrical components and circuits. This course's goal is to provide students a fundamental understanding of linear circuits and their components (like voltage and current sources, resistors, capacitors, and inductors).
The objective is to instill in the student a knowledge of electric circuit analysis as well as an analytical method for resolving circuit networks utilizing various strategies and theorems. Given that they served as the foundation for the creation of contemporary electronics, semiconductors are obviously significant.
The heart of the microchips that represent modern technology, semiconductors, are unique in many respects. Semiconductors are substances that move electricity more efficiently than insulators but less efficiently than conductors.
The category for this course PHY301 is Physics and the level is undergraduate. The contents of this course PHY301 are mentioned in the below list:
- Basic concepts
- Basic electricity and circuit elements -The closed circuit -Open circuit -Short circuit -Power - Passive sign conventions
- Resistance in Series and Parallel
- Inductance - Capacitance - Ohm's Law - Power Dissipation in Resistance
- Current sources and Voltage sources –Direct & Alternating quantities -Voltage dividers and Current dividers
- Current divider and Voltage divider circuits
- Kirchhoff's Laws- Kirchhoff's Current Law (KCL)
- Superposition Theorem and its applications in circuit network
- Thevenin's Theorem and its applications in circuit network
- Application of Nodal Analysis
- Applications of nodal analysis-Super Node
- Applications of Loop Analysis-examples
- KVL equations and applications of Loop Method and Loop Analysis-super mesh
- Applications of Loop Analysis - Super Mesh Technique-examples and Coupling equation
- Matrices and Determinants method, in solving circuit equations
- PN Junction Diode
- Terminal characteristics of the Junction Diode - Forward bias region
- Reverse bias region - Break down region - Analysis of Diode circuits
- Transformers - step-up-step down-Applications
- Negative Half Wave Rectifiers - Load voltage and current - Average Load voltage and current
- Peak Inverse Voltage (PIV) - Full wave rectifier
- Negative full wave rectifier - Full wave bridge rectifier
- Filters - Clippers - Series Clippers
- Bipolar Junction Transistors (BJT) -Types, Modes of operation
- DC biasing of Transistor -Characteristic of BJT-Load line analysis
- DC Biasing BJT etc.
Credit Hours:
Credit hours for this course PHY301 are 3.
PHY301 Handouts:
PHY301 Past Papers:
PHY301 Midterm Past Papers:
PHY301 midterm past papers will be available soon.
PHY301 Final Term Past Papers:
PHY301 final term past papers will be available soon.
PHY301 Assignments:
PHY301 assignments will be available soon.
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