# Ingegneria Gestionale (Academic Year 2018/2019) - Indirizzo produzione

## Διαφάνειες

 Course material    Lesson contents    Introduction    Physics: An Experimental Science    Physical quantinites: Units and Standards    Base units    Derived units    International System (SI)    Unit prefixes    Unit consistency Lesson content    Vector analysis    Addition of vectors - graphical method    Addition of vectors - analytical method    Multiplying a vector by a scalar    Scalar product of two vectors    The vector product Lesson contents    Kinematics    Motion along a straight line    Position, Velocity, Acceleration    Average velocity    Instantaneous velocity    Speed    Acceleration    Motion with constant acceleration Lesson contents    Free-fall acceleration    Motion in two or three dimensions: Position, Velocity and Acceleration    Projectile motion    Horizontal and vertical movement    The maximum height of the projectile    The equation of the path    The range of a projectile Lesson contents    Dynamics: Forces    Mass    Newton'slaws of Mechanics    Newton's first law    Newton's second law    Newton's third law    Motion of particles    Free body diagam Lesson contents    Introduction    Applying newton’s laws    Friction Lesson contents    Dynamics of circular motion    Centripetal Force    Energy and Kinetic Energy    Work    Work done by gravitational forces Lesson contents    Work done by a variable force    Work done by a spring force    Power    Potential energy and energy conservation    Conservative and non-conservative forces    Work, Potential and Kinetic energy Lesson contents    Work and potential energy    Work done by non conservative forces    Calculating potential energy    Mechanical energy and energy conservation    Work done by non-conservative forces    Conservation of total energy Lesson contents    The center of mass    The center of mass of a system of particles    The center of mass of rigid bodies Lesson contents    The center of mass - Symmetry considerations    Newton’s second law for a system of particles    Linear momentum Lesson contents    Linear momentum    Conservation of linear momentum    Collisions    Collisions - Impulse    Collisions - Conservation of momentum    Elastic collisions: Conservation of energy    Inelastic collisions    Elastic collision in one dimension Lesson contents    Solving the problem of one dimensional elastic collision    Inelastic collisions in one dimension    Completely inelastic collisions    Collisions in two dimensions Lesson contents    Motion of a rigid body    Kinematics of a rigid body    Angular position    Angular displacement and angular velocity    Angular acceleration    Rotation with constant angular acceleration Lesson contents    Relations between linear and angular variables    Kinetic energy of rotation    Moment of inertia    Dynamics of a rigid body    Parallel axis theorem    Torque Lesson contents    Torque    Newton’s second law of rotation    Work and rotational kinetic energy    Angular momentum    Conservation of angular momentum Lesson contents    Fluids    Density and pressure    Fluids at rest    Measuring pressure Lesson contents    Pascal’s principle    Archimedes’ principle    Ideal fluids in motion    The equation of continuity    Bernoulli’s equation Lesson contents    Thermodynamic Systems and Transformations    Temperature    The zeroth law of thermodynamics    Thermodynamic Systems: Heat    Temperature and heat    Units of heat    Heat capacity Lesson contents    Heat capacity and specific heat    Heat of transformation    Heat and work Lesson contents    First law of thermodynamics    Special cases of the first law of thermodynamics    Types of thermodynamic processes: Adiabatic and Isochoric processes Lesson contents    Thermodynamic processes: Isobaric process    Thermodynamics of boiling water    Thermodynamic processes: Isothermal process    Ideal gasses    Isothermal expansion of an ideal gas    The internal energy of an ideal gas    Molar specific heats of an ideal gas Lesson contents    Adiabatic expansion of an ideal gas    Free expansion    Principles of thermodynamics and heat engines    Entropy    Change in Entropy of a free expansion of an ideal gas    Entropy Postulate modified Lesson contents    Second law of thermodynamics    Heat engines    Carnot Engine    Carnot Cycle    Efficiency of a Carnot Engine    Perfect engine    Stirling Engine Lesson contents    Refrigerators    Example on heat engines Introduction    Electrostatic Charges    Charge Quantization    Conservation of Charge    Distribution of Charge    Coulomb's Law    Derivation of the Inverse Square Law Lesson Content    Introduction    The Electric Field    Electric Field Lines    Electric Field of a Point Charge    Electric Field of a Distribution of Charges    Electric Field of an Electric Dipole    Electric Dipole in an Electric Field Lesson Content    Introduction    Flux of an Electric Field    Gauss’ Law    Flux of a Point Charge    Application of Gauss’ Law: Cylindrical Symmetry    Application of Gauss’ Law: Planar Symmetry    Application of Gauss’ Law: Spherical Symmetry    Differential Form of Gauss’ Law Lesson Content    Electrostatic Potential Energy    Electrostatic Potential    Relation Between the Electric Field and the Potential    The Electric Dipole    Equipotential Surfaces    Poisson Equation    Laplace’s Equation    Applications Lesson Content    Introduction    Capacitance    Capacitance of a Single Conductor    Parallel-Plate Capacitor    Units of Capacitance    Capacitors in Parallel    Capacitors in Series    Systems of Conductors    Electric Field Energy Lesson Content    Introduction    Polarization    Electric Susceptibility    Electric Displacement Lesson Content    Introduction    Electric Current    Resistance    Conduction    Ohm’s Law    Resistivity Lesson Content    Resistance Calculation    Non-uniform Conductor    Two Concentric Cylinders    Resistors in Series    Resistors in Parallel    Joule Effect Lesson Content    Introduction    Electric Current    Resistance    Conduction    Ohm’s Law    Resistivity Lesson Content    Resistance Calculation    Non-uniform Conductor    Two Concentric Cylinders    Resistors in Series    Resistors in Parallel    Joule Effect Lesson Content    Thévenin’s Theorem    Theory of Maximum Power Transfer    Unbalanced Wheatstone Bridge    Norton’s Theorem    Applications    Superposition Theorem Lesson Content    Introduction    Magnetic Field in Vacuum    Magnetic Force on a Moving Charge    Lorentz Force    Hall Effect    Magnetic Field Lines    Magnetic Force on a Current    Magnetic Force and Torque on a Current Loop Lesson Content    Introduction    Forces Between Two Currents    Laplace Force Law    Biot-Savart Law    Applications of Biot-Savart Law    The Divergence of The Magnetic Induction Lesson Content    Introduction    Ampere’s Law    Applications of Ampere’s Law    Forces Between Two Parallel Wires    Differential Form of Ampere’s Law    The Vector Potential    The Magnetic Flux    Gauge Invariance Lesson Content    Introduction    Experimental Approach    Faraday’s Law    Lenz’s Law    Induction and Energy Transfer Lesson Content    Introduction    Self-Inductance    Self-inductance of a long solenoid    Self-inductance of a toroid    Mutual Inductance    Two Coaxial Solenoids    Energy of a Magnetic Field Lesson Content    Electromagnetic Equations - static case    Electromagnetic Equations - dynamic case    Displacement Current    Maxwell’s Equations in Vacuum    Gauge Invariance    Lorentz Gauge Lesson Content    Introduction    Electromagnetic Energy    Poynting Vector    Examples Lesson Content    Introduction    Light Rays and Rectilinear Propagation    Superposition Principle    Theoretical Basis of Geometrical Optics    Light    Speed of Light    Index of Refraction    Fermat’s Principle    Law of Reflection    Law of Refraction    Fermat’s Principle: Reflection    Fermat’s Principle: Refraction    Image Construction Lesson Content    Reflection from a Spherical Surface    Concave Mirror    Convex Mirror    Sign convention    Mirror Equation    Image Construction    Refraction at a Spherical Surface    Convex Surface    Concave Surface    Refracting surface equation    Lateral Magnification Lesson Content    Introduction    Prisms    Lenses    Types of lenses    Thin Lens Approximation    Compound Lenses    Magnifiers and Microscopes    The Telescope    The Camera ν. μαθήματος 47: Didactic materials related to the entire course

### Κεντρική Έδρα

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### Φοιτητική Γραμματεία

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### Τηλεδιάσκεψη

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