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Fundamentals of Physics - Mechanics & Heat (Dasar-dasar Fisika - Mekanika & Panas)

Kursus ini memberikan ilmu pengantar fisika dasar untuk insinyur dan pengetahuan dan masalah dalam hukum gerak newton dan kekekalan energi. Mata kuliah ini mencakup materi Mekanika (Kinematika, Dinamika, Usaha-Energi), Gelombang Mekanik, Fluida (Statis dan Dinamika), dan Termofisika (Teori Kinetik Gas dan Termodinamika).

References:

  1. Walker, J., Halliday, D., & Resnick, R. (2011). Fundamentals of physics. Hoboken, NJ. John Wiley & Sons, Inc.
  2. Serway, R. A., Jewett, J. W., & Serway, R. A. (2004). Physics for scientists and engineers. Belmont, CA. Thomson-Brooks/Cole.

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Samuel Pangeran Aletheia

Kinematics

Kinematics for basic physics is an introduction to mechanics physics for science and engineers. This session includes:

  1. Position and Displacement
  2. Average and Instantaneous Velocity
  3. Average and Instantaneous Acceleration
  4. Vector and Scalar Measurement
  5. Basic Kinematic Equation
  6. Free-Fall Motion
  7. Parabolic Motion
  8. Circular Motion
  9. Relative Motion in One and Multi Dimensions

Dynamics of Particle

Particle dynamics is an introduction to motion physics and momentum. The materials discussed includes:

  1. Basics of 1st, 2nd, and 3rd Newton's Law
  2. Equilibrium of Forces
  3. Normal, Frictional, and Drag Force
  4. Gravitational Force
  5. Centripetal and Centrifugal Force
  6. Linear Momentum
  7. Collision and Impulse
  8. Conservation of Linear Momentum

Work and Energy

Energy and work are related each others and their basic concepts is fundamental in mechanic physics. The materials discussed includes:

  1. Principle of Energy Conservation
  2. Conservative and Non-conservative Force
  3. Potential Energy
  4. Kinetic Energy
  5. Mechanical Energy
  6. Power

Dynamics of Rotational Motion

This session discuss motion physics and moementum. The materials discussed includes:

  1. Torque and Moment of Inertia
  2. Center of Mass Calculation for Various Geometries
  3. Angular Momentum
  4. Conservation of Angular Momentum
  5. Translation, Rotation, and Rolling Movement

Elasticity and Oscillation

This session is continuation of dynamics motion session. This session discuss materials:

  1. Stress and Strain
  2. Modulus of Elasticity (Young Modulus)
  3. Shear and Bulk Modulus
  4. Harmonic and Damped Oscillation
  5. Resonance

Waves

This session is an introduction to waves in physics. This session discuss:

  1. Transverse and Longitudinal Waves
  2. Wavelength, Period, and Frequency
  3. The Principle of Wave Superposition
  4. Standing Waves and Resonance
  5. Doppler Effect

Fluid Statics and Dynamics

This session introduce basic concepts in fluid mechanics. The materials discussed includes:

  1. Hydrostatic Pressure
  2. Archimedes Law
  3. The Equation of Continuity
  4. Bernoulli Equation

The Kinetic Theory of Gases

After studying introduction to fluid mechanics, the session continues in gas kinetic as introduction to thermodynamics. This session includes:

  1. Ideal Gases
  2. Pressure, Temperature, and RMS-Velocity
  3. The Equipartition of Energy Theorem
  4. Internal Energy
  5. Heat Capacity of Ideal Gases

Thermodynamics

This session is an introduction to engineering thermodynamics. This session discuss:

  1. Concept of Thermal Equilibrium
  2. 1st Law of Thermodynamics
  3. PVT Diagram
  4. Isobaric, Isochoric, Isothermic, Adiabatic, and Cyclic Process
  5. 2nd Law of Thermodynamics
  6. Carnot Heat Engine and Refrigerator
  7. Entropy