[PDF] Engineering Physics I - 1st Semester Notes and Syllabus CTEVT | Diploma in Engineering

Here, The Course Note and syllabus of Engineering Physics I at the 1st semester of Diploma in Engineering CTEVT.

[PDF] Engineering Physics I - 1st Semester Notes and Syllabus CTEVT | Diploma in Computer Engineering/IT

[PDF] Engineering Physics I - 1st Semester Notes and Syllabus CTEVT | Diploma in Computer Engineering/IT

The Course Note of Engineering Physics I is in PDF format.

Complete Note: 

[PDF] Engineering Physics I first semester notes Ctevt | Diploma in Computer Engineering 

The Syllabus of Engineering Physics I at 1st Semester:

Engineering Physics I

EG 1104 SH

 

Total: 6 hour /week

 Year: I Lecture: 3 hours/week

 Semester: I 

Tutorial: 1 hours/week 

 Practical: hours/week 

 Lab: 2 hours/week

 

Course Contents:

Unit 1. Mechanics:                                                                               [15]

1.1   Basic units and measurement

• Measurement of physical quantities
•   Introductory ideas about dimensions of physical quantities.
•  Scalar and Vector: definitions and examples, dot and cross product of two    vectors.
• Composition and resolution of vectors (Triangle law and parallelogram    law of vectors.)

1.2. Newton’s laws of motion:

• Newton’s laws of motion (First, second and third laws)
• Principle of conservation of linear momentum
• Solid friction: Dynamic and rolling friction, laws of solid friction and its verification

1.3.  Uniform circular motion:

• Angular displacement and velocity.
• Centripetal force and acceleration.
• Motion of bicycle rider

1.4.  Gravitation:

• Newton’s law of universal gravitation.
• Gravitational attraction of earth:
• Acceleration due to gravity.
• Variation of acceleration due to gravity with height, depth, and latitude.
• Motion of satellites.

1. Orbital velocity,
2. Geostationary satellites.

• Weightlessness, motion of lift

1.5.  Work, energy, and power:

• Definition and units of work, energy and power.

• Potential and kinetic energy.

•  Conservation of energy.

• Conservative forces.

1.6.    Simple harmonic motion (SHM):

•   Simple harmonic motion and its characteristics.
•   Energy of simple harmonic motion.
•  Simple pendulum.

1.7.  Equilibrium and rotation of rigid bodies:

• Forces in equilibrium, torque, couple, C.G. and center of mass.
• Moment of inertia.
• Angular momentum and
•  Its conservation.
• Work done by torque.

Unit 2. Heat and thermodynamics:                               [12]

2.1  Heat Phenomena and Quantity of Heat:

• Concept of temperature and thermal equilibrium.
•  Temperature of scales.
•  Quantity of heat gain or heat loss.
• Specific heat capacity.
• Determination of heat capacity by the method of mixtures.
•  Newton's law of cooling.

2.2  Change of Phase:

• States of matter.
•  Fusion and vaporization.
•  Evaporation and boiling.
•  Specific latent heats of fusion and vaporization.
• Melting and boiling points.
• Introduction of Saturated and unsaturated vapors.
• Variation of melting and boiling points with pressure.
•   The triple point and critical point.
•   Dew point and humidity.

2.3  Thermal Expansion:

•   Coefficients of linear, superficial and cubical expansions of solid and relation between them.
•  Cubical expansion of liquids.
•  Real and apparent expansions.
• Variation of density due to expansion.

2.4  Heat Transfer:

• Thermal conduction and thermal conductivity
• Convection
• Radiation.
• Perfectly black body.

2.5	Gas Laws: Boyle’s law,  Charles law and ideal gas equation.  Universal gas constant,  Avogadro number and Boltzman constant.  Volume and pressure coefficients of ideal gas.
2.6	Kinetic Theory of Gases:   Pressure in an ideal gas from molecular point of view.   RMS speed, mean energy of a molecule of an ideal gas.
2.7	Thermodynamics: First law of thermodynamics. Different thermodynamic process:
	1. Adiabatic (equation and work done)
	2. isothermal (equation and work done)
	3. Isobaric and Isochoric  Specific and molar heat capacities for different thermodynamic processes,
	Cp-Cv =R. Second law of thermodynamics.  Efficiency of heat engine Unit 3. Optics: 3.1 Reflection by plane surfaces Nature of light, sources of light Review of reflection by plane surfaces Deviation due to reflection Deviation of light due to plane mirror Deviation of light due to rotating mirror 3.2 Refraction by plane Surfaces: Review of refraction by plane surfaces.  Lateral shift Total internal reflection, critical angle  Real and apparent depth. 3.3 Reflection by spherical surfaces: Review of reflection by spherical surfaces. Construction of image by ray diagrams and nature of images Real and virtual images. Nature of images formed by spherical mirrors. Mirror formula for concave and convex mirror 3.4 Refraction through Prisms and Lenses: Deviation due to prism and minimum deviation. Refraction through lenses. Lens maker equation. Lens formula for converging lens, diverging lens Formation of images by lenses Combination of lenses. Magnification, Power of a lens.

Unit 4.  Magnetism:                                                                      [10]

4.1  Magnets and Magnetic fields:

• Magnetic poles, magnetic moment, magnetic axis, and magnetic meridian.
• Magnetic field.
• Coulomb’s law for magnetism.
• Magnetic field due to magnetic poles and bar magnets.
•  Intensity and flux density of magnetic field.
•  Neutral point.
• Tangent law.

4.2. Earth’s Magnetism:

• Horizontal and vertical components of earth’s magnetic field.
• Declination and angle of dip.

4.3. Magnetic properties of materials;

• Molecular and modern theory of magnetism.
• Para magnetism and diamagnetism:

1. Permeability and
2. Susceptibility.

•   Intensity of magnetization.
• Domain theory of ferromagnetism.
• Hysterisis

 

 

Engineering Physics Practical I                                                                                                                          

1.          Determine volume of hallow cylinder by using vernier calipers.

2.          Determine density of a steel / glass ball by using screw gauge.

3.          Determine thickness of glass plate using spherometer and calculate the             area by using millimeter graph paper.

4.          Determine the acceleration due to gravity by using simple pendulum.

5.          Determine the magnetic movement of a bar magnet by using deflection                     magnetometer.

6.          Determine the refractive index of the material of prism.

7.          Determine specific heat capacity of solid by the method of mixtures.

8.          Determine specific latent heat of ice by the method of mixtures.

9.          Determine specific gravity of different solids by up thrust method.

10.       Determine focal length of a converging lens by displacement method.