General Physics for Engineering (1) 102
Course description: Units, Dimensions, and Motion in One Dimension, Base and Derived Units, Definition of SI Units, Scalar and Vector Quantities, Components of a Vector, Unit Vectors, Dimensional Anal
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Ch:1 Motion In one dimension
- SI , CGS , BE Units systems 36:21
- The symbols of SI units 07:23
- Prefixes 19:11
- Conversion between two systems 24:05
- Conversion between two units 15:14
- Unit conversion example 19:51
- Significate Figures 18:22
- Scaler and vectors quantity & dimensional analysis - 52:57
- Speed and velocity 34:18
- Equations of Motion 12:20
- EquatH.w Chapter 1 13:25
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Ch2:Newtons Law
- Mass and Weight 20:52
- Newton's Laws 50:11
- The Gravitational Force , and examples 34:33
- H,W 25:17
- اسئلة المصعد 16:07
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CH3: Energy
- Energy Types, PE and K.E 31:42
- Work 27:58
- Work-and Energy Relations 43:13
- Momentum & Impuls 16:15
- H.w +Questions 20:48
- Question and missing slides 11:39
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Ch:5 Oscillatory Motion
- Periodic motion 10:54
- Amplitude 03:29
- Harmonic motion: velocity, acceleration 31:35
- Energy in spring 13:12
- Simple pendulum 13:22
- examples 26:27
- Free fall 40:46
- Projectile motion 12:56
- Projectile motion part2 14:48
- Examples part1 -projectile Motion 21:01
- H.w 10:53
- Important Question 06:07
- Circular Motion 12:27
- Circular Motion Example 06:13
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Ch 4: Rotation of a Rigid Object about a Fixed Axis
- Type of motions 31:37
- Rotational Kinetic Energy 15:36
- Tourq 17:39
- Examples 12:30
- CH 6: Elastic Properties of Solid
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Ch7: Fluid Mechanics
- Density 32:31
- PRESSURE MEASUREMENTS 20:42
- Archimedes’s principle +H.w 14:50
- Viscous Fluid Flow 22:57
- Examples from lab -Buoyant force 11:53
- Equation of Continuity 25:08
- Bernoulli's Equation 20:25
- Boyle’s Law 11:40
- ch8: Heat & Thermal Equilibrium
- CH9: First Law of thermodynamics
- Ch10: Heat Engine
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Review mid+quiz
- Buoyant force -1 28:35
- FLUID-2 20:41
- Fluid part-3+Mid questions 29:59
- Review Heat 32:39
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Ch:1 Motion In one dimension
- Course description: Units, Dimensions, and Motion in One Dimension, Base and Derived Units, Definition of SI Units, Scalar and Vector Quantities, Components of a Vector, Unit Vectors, Dimensional Analysis, Motion in One Dimension, Displacement, Average and Instantaneous Velocity, Average and Instantaneous Acceleration, The Concept of Force, Newton’s First Law, Mass, Newton’s Second Law, The Gravitational Force and Weight, Newton’s Third Law, Forces of Friction, Newton's Law of Universal Gravitation, Energy, Power, Work, Dot Product, Kinetic Energy And Work-Energy Theorem, Gravitational Potential Energy, Spring Potential Energy, Elastic Potential Energy, Momentum, Impulse, Impulse–Momentum Theorem, Rotational Motion Under Constant Angular Acceleration, Oscillatory Motion, Angular Frequency, Rotating wheel, Torque, Cross Product, Periodic Motion, Motion of a Spring-Mass System, Simple Harmonic Motion, Period, Energy of the SHM Oscillator, Simple Pendulum, Motion in Two Dimension, Freely Falling Objects, Position and Displacement, Average Velocity and Instantaneous Velocity, Average Acceleration and Instantaneous Acceleration, Projectile Motion, Uniform circular motion, Static Equilibrium and Elasticity, Stress, Strain, Modulus of Elasticity, Young’s modulus, Shear modulus, Bulk modulus, Fluid Mechanics, Density, Pressure, Variation of Pressure with Depth, Pressure Measurements, Buoyant Forces-Archimedes Principle, Equation of Continuity for Fluids, Bernoulli's Equation, Boyle’s law, Surface Tension, Viscosity, Heat and the First Law, Temperature, Heat, Thermal Equilibrium, Thermometers, Thermal scales, Thermal expansion, Energies: Thermal and Internal Energy, Thermal Capacity, Specific Heat Capacity, Latent Heat, Energy Heat mechanisms, The Principle of Thermodynamics, Macroscopic Description of an Ideal Gas, Work and Heat in Thermodynamic Processes, The First Law of Thermodynamics, Some Applications of the First Law of Thermodynamics, The Kinetic theory of Gases (Molar Specific Heat of an Ideal Gas, Adiabatic Processes for an Ideal Gas), Heat Engines, Entropy, and the Second Law of Thermodynamics, Heat Engines and the Second Law of Thermodynamics, Heat Pumps and Refrigerators, Reversible and Irreversible Processes, Carnot Engine, Entropy, Changes in Entropy for Thermodynamic Systems, Entropy and the Second Law.
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Rana , studied for (master’s degree in medical physics) Rana has 11 years of experience working in the most elegant places at the Kingdom أ. رنا حاصلة على درجة الماجستير في الفيزياء تعمل لدى ف اكاديمية للحصول على اعلى درجة للاستفادة من اي منهج انصح بعدم تراكم الفديوهات وكذلك انصح بضرورة الإنضمام لجروب التلجرام في حال الأستفسار عن معلومات محددة
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Student feedback
4.43Course Rating
500 SAR
Lectures
63 Videos
Duration
24:04:17
Material
3 Files
Assignments
Yes, Completely
Labs
No
Project
No
Certificate
Not Applicable
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اكثر كلاس استفدت منه❤️ شكرًا مس لمياء ما قصرتي معانا❤️❤️ شرح وافي وشامل للمقرر كامل مع اسئلة وتتوريالز واختبارات، ما ندمت ابدا اني اشتركت
افضل استاذه والله العظيم اخلاق ومتعاونه وشرحها يجننننن انصحكم
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شرح كويس لولا التأخر في تنزيل فديوهات الشرح
الحمدلله استفدت من الكورس ماقصرتي مس رنا❤️ وسرعه استجابه ورد عند الاستفسار بالتلقرام شكراً جزيلاً❤️