CB002 Electrical Circuit
CB0024 Electrical circuits
CB00240 Basic Concepts
CB00241 Electric field.
CB002411 properties of electrical loads.
CB002412 Coulomb's law.
CB002413 the intensity of the electric field.
CB002414 electrical flow. Gauss law.
CB002415 Electric potential and potential difference.
CB00242 Magnetic field.
CB002421 fields and magnetic forces.
CB002422 reaction of a current in the presence of a magnetic field.
CB002423 laws of Biot-Savart and Ampère.
CB002424 magnetic conductors, wires, coils, solenoids and toroids fields.
CB002425 Faraday induction law. Lenz's law.
CB002426 electromagnetic waves and physical contents of Maxwell's equations.
CB00243 The law of Ohm; voltage, current, resistance, power and energy.
CB002431 definition of the main electrical parameters.
CB002432 units of measurement and dimensional analysis.
CB002433 law of Ohm, Watt.
CB002434 interrelationship between the main electrical parameters.
CB002435 power and energy and their interaction. Efficiency and dissipation.
CB00244 Connections in series, in parallel and combinations of them. Kirchhoff laws.
CB002441 connection in series and applicable conditions. Second law of Kirchhoff or meshes. Calculation of the equivalent series resistance.
CB002442 connection in parallel and conditions. First law of Kirchhoff or nodes. Parallel calculation of equivalent resistance.
CB002443 combinations parallel and paralelo-serie.
CB002444 network ladder.
CB00245 Special methods for analysis of circuits and DC networks theorems.
CB002451 classification of power supplies.
CB002452 Thévenin and Norton models. Equivalence between them.
CB002453 conversions Delta and star-Delta.
CB002454 method of analysis by mesh.
CB002455 nodes analysis method.
CB00246 Alternating current and alternating waveform sine.
CB002461 descriptive mathematical function and relation with uniform circular motion.
CB002462 period, frequency, angular frequency and phase.
CB002463 effective value and crest factor.
CB00247 Reactive elements.
CB002471 mathematical definition as electrical energy storage elements.
CB002472 capacitance. Dielectric materials, dielectric constant and dielectric.
CB002473 current displacement and capacitive reactance.
CB002474 inductance. Magnetic materials, permeability and reluctance.
CB002475 induced voltage and inductive reactance.
CB002476 functions of the power in the reactive elements.
CB00248 Phasors and impedance.
CB002481 equivalent vector representation of alternating functions sine wave.
CB002482 Phasors of voltage and current associated with resistors, capacitors and inductors.
CB002483 definition of impedance.
CB002484 arithmetic operations with phasors and application to the study of electrical networks subject to permanent senoidal regime.
CB00249 The concept of complex power.
CB002491 the power as a function of time. Resistive, capacitive and inductive cases.
CB002492 power real or active, reactive power and apparent power total.
CB002493 the triangle of power.
CB002494 power factor and power factor compensation.
CB002410 Three-phase electricity distribution system.
CB0024101 general definition of Polyphase schemes.
CB0024102 advantages and universality of the phase diagram. Symmetry of the supply and load balancing.
CB0024103 connections delta and star. Voltages and currents and phase line. Systems of three and four-wire.
CB0024104 the power calculation in three-phase systems.
CB00240 Basic Concepts
CB00241 Electric field.
CB002411 properties of electrical loads.
CB002412 Coulomb's law.
CB002413 the intensity of the electric field.
CB002414 electrical flow. Gauss law.
CB002415 Electric potential and potential difference.
CB00242 Magnetic field.
CB002421 fields and magnetic forces.
CB002422 reaction of a current in the presence of a magnetic field.
CB002423 laws of Biot-Savart and Ampère.
CB002424 magnetic conductors, wires, coils, solenoids and toroids fields.
CB002425 Faraday induction law. Lenz's law.
CB002426 electromagnetic waves and physical contents of Maxwell's equations.
CB00243 The law of Ohm; voltage, current, resistance, power and energy.
CB002431 definition of the main electrical parameters.
CB002432 units of measurement and dimensional analysis.
CB002433 law of Ohm, Watt.
CB002434 interrelationship between the main electrical parameters.
CB002435 power and energy and their interaction. Efficiency and dissipation.
CB00244 Connections in series, in parallel and combinations of them. Kirchhoff laws.
CB002441 connection in series and applicable conditions. Second law of Kirchhoff or meshes. Calculation of the equivalent series resistance.
CB002442 connection in parallel and conditions. First law of Kirchhoff or nodes. Parallel calculation of equivalent resistance.
CB002443 combinations parallel and paralelo-serie.
CB002444 network ladder.
CB00245 Special methods for analysis of circuits and DC networks theorems.
CB002451 classification of power supplies.
CB002452 Thévenin and Norton models. Equivalence between them.
CB002453 conversions Delta and star-Delta.
CB002454 method of analysis by mesh.
CB002455 nodes analysis method.
CB00246 Alternating current and alternating waveform sine.
CB002461 descriptive mathematical function and relation with uniform circular motion.
CB002462 period, frequency, angular frequency and phase.
CB002463 effective value and crest factor.
CB00247 Reactive elements.
CB002471 mathematical definition as electrical energy storage elements.
CB002472 capacitance. Dielectric materials, dielectric constant and dielectric.
CB002473 current displacement and capacitive reactance.
CB002474 inductance. Magnetic materials, permeability and reluctance.
CB002475 induced voltage and inductive reactance.
CB002476 functions of the power in the reactive elements.
CB00248 Phasors and impedance.
CB002481 equivalent vector representation of alternating functions sine wave.
CB002482 Phasors of voltage and current associated with resistors, capacitors and inductors.
CB002483 definition of impedance.
CB002484 arithmetic operations with phasors and application to the study of electrical networks subject to permanent senoidal regime.
CB00249 The concept of complex power.
CB002491 the power as a function of time. Resistive, capacitive and inductive cases.
CB002492 power real or active, reactive power and apparent power total.
CB002493 the triangle of power.
CB002494 power factor and power factor compensation.
CB002410 Three-phase electricity distribution system.
CB0024101 general definition of Polyphase schemes.
CB0024102 advantages and universality of the phase diagram. Symmetry of the supply and load balancing.
CB0024103 connections delta and star. Voltages and currents and phase line. Systems of three and four-wire.
CB0024104 the power calculation in three-phase systems.
CB0026 Physics for designers
CB00260 VECTORS
CB002601 Vectors Analysis
CB0026010 Unitary Vector
CB002602 Vector Sum
CB002603 Vector Produc
CB002604 Vector Aplications
CB00261 MACHINERY
CB002611 translation
CB002612 rotation
CB002613 mobility
CB002614 classification of mechanisms
CB002615 Grashof law
CB00262 MECHANICS
CB002621 Newton laws
CB0026211 first law; rest or movement
CB0026212 second law; acceleration, force, and mass
CB0026213 third law; action and reaction
CB002622 balance and stability for systems of particles
CB002623 balance and stability for rigid solids
CB002624 friction forces
CB0026241 friction coefficient
CB002625 equations of motion
CB0026251 distance, time, speed and Acceleration
CB00263 LEVERS AND TORQUE
CB002631 angular momentum
CB002632 moment of inertia and torca
CB002633 gears
CB0026331 gear motor and load
CB0026332 gear planetary, helical, bevel, worm
CB002634 types of levers
CB0026341 elements in the levers
CB0026342 levers of first, second and third gender
CB0026343 applications in industrial design
CB002635 transformation of movement
CB00264 APPLICATION OF THE INCLINED PLANE
CB00265 PROPERTIES OF MATERIALS
