# Basic principle of physics 2(introductry electricity and magnetism ) by TT Ogunseye PDF free download

Basic principle of physics 2(introductry electricity and magnetism ) by TT Ogunseye, PDF, was published in 2015 and uploaded for 100-level **Science and Technology students** of **University of Ibadan (UI)**, offering **PHY104** course. This ebook can be downloaded for FREE online on this page.

Basic principle of physics 2(introductry electricity and magnetism ) ebook can be used to learn Electric charges, Coulomb’s law, Conductors, insulators, Electric Field Intensity, Charge Distribution, Electric Field Lines, Electric Field Lines, Charge Density, Volume Charge Density, Surface Charge Density, Line Charge Density, Electric Field, Electric Flux, Gauss’s Law, Electric Field Calculation, Electric Potential, Electrical Potential Energy, Equipotential Surfaces, Capacitance, Dielectrics, Current Electricity, capacitor, Electric current, Electric Current Density, Resistance, Resistivity, Conductivity, Electromotive Force, Internal Resistance, Direct Current Circuits, resistance, Kirchhoff’s Current Law, Kirchhoff’s Voltage Law, energy, power, Wheatstone Bridge, Potentiometer, Slide Wire Bridge, Electrodynamics, Mass Spectrometer, hall effect, Magnetic Field, Magnetic Forces, Biot-Savart Law, Ampere’s Circuital Law, Electromagnetic Induction, Magnetic Flux, Lenz's law, Mutual Inductance, Self Inductance.

Technical Details |
---|

Uploaded on: 12-January-2021 |

Size: 8.49 MB |

Number of points needed for download: 60 |

Number of downloads: 10 |

*Will you help us reach more students?*

Use the link below to get`
42 points` for each download by a registered user from your shared link below. Share on social media groups to reach more students.

## Books related to Basic principle of physics 2(introductry electricity and magnetism )

**Author:** Samuel Ling, Jeff Sanny

**School:** University of Ibadan

**Department:** Science and Technology

**Course Code:** PHY104

Topics: temperature, heat, thermal equilibrium, thermometer temperature scale, thermal expanusion, heat transfer, specific heat, calorimetry, heat capacity, thermodynamics, work, heat, internal energy, heat engines, refrigerators, heat pumps, carnot cycle, entropy, electricity, magnetism, electric charge, electric field, conductors, insulators, Coulomb's law, electric dipoles, Gauss law, electric flux, electric potential, capacitor, capacitance, electrical current, resistivity, resistance, Ohm's law, electrical eenrgy, power, super conductors, electromotive force, magnetic forces, magnetic fields, hall effect, Biot-Savart law, solenoids, toroids, Faraday's law, Lenz's law, induced electic fields, eddy current, electric generators, inductance, transformers, electromagnetic waves, electromagnetic spectrum

**Author:** PHY112

**School:** University of Ibadan

**Department:** Science and Technology

**Course Code:** PHY112

Topics: Electric Charge, Insulators, Conductors, Semiconductors, Charging by Induction, Coulomb’s Law, Coulomb’s Law Equation, Electric Field, Continuous Charge Distribution, Electric Field Lines, electric potential, Capacitors, Dielectric, capacitance, current, resistance, Ohm's law, resistivity, conductivity, electrical power, Kirchhoff rule, Electrical instrument, Ammeter, voltmeter, galvanometer, Wheatstone bridge, potentiometer

Advance physics Electricity, electromagnetism and optics

**Author:** PI Ekwo, CC Anazodo, AJ Ekpunobi, Okolo

**School:** Nnamdi Azikiwe University

**Department:** Science and Technology

**Course Code:** PHY102

Topics: Electricity, electromagnetism, optics, capacitors, dielectric, capacitance, parallel plate capacitor, dielectric constant, relative permittivity, capacitor network, current electricity, electric current, electronic drift speed, resistance, resistivity, conductivity, Ohm's law, potentiometer, Kirchhoff's law, Wheatstone bridge, electrical heating, electrostatics, magnetic field, magnetic induction, magnetic force, Biot-Savart law, Ampere's circuited law, electromagnetic induction, Maxwell's equation, electromagnetic oscillations, prism, lens

**Author:** Teruo Matsushita

**School:** University of Ilorin

**Department:** Science and Technology

**Course Code:** PHY152, PHY252, ITE105, ITE302

Topics: electrostatic field, conductor, electrostatic induction, capacitor, electrostatic, dielectric material, electric polarization, electric flux density, boundary conditions, steady current, ohm's law, electromotive force, Kirchhoff's law, current, magnetic flux density, Biot-savart law, superconductors, inductance, coils, magnetic energy, magnetic force, magnetic material, magnetization, magnetic field, electromagnetic induction, induction law, skin effect, displacement current, electromagnetic potential, Poynting vector, electromagnetic wave, wave guide, spherical wave, retarded potential, Maxwell's equation

Electricity and Magnetism lecture note part 2

**Author:** NN Jibiri

**School:** University of Ibadan

**Department:** Science and Technology

**Course Code:** PHY112

Topics: Wheatstone bridge, Potential Divider Circuits, electrodynamics, Maxwell’s Equation, Maxwell’s law, cyclotron, electromagnetic induction, Lorentz force, Magnetic Flux, Faraday’s law, self induction, induced electric field, Mutual Induction, Motional EMF, Lenz's law, Transformer, Generator, Motor, Dynamo, AC circuit, Alternating current, inductance, reactance

Sears and Zemansky's University Physics with Modern Physics students solution manual, 14th Edition

**Author:** Hugh Young, Roger Freedman

**School:** University of Ibadan

**Department:** Science and Technology

**Course Code:** PHY112, PHY113, PHY114, PHY115

Topics: Units, Physical Quantities, Vector, Motion, Newton's law, Work, Kinetic energy, Potential energy, Energy conservation, Momentum, impulse, collision, rigid bodies, rotational motion, equilibrium, elasticity, fluid mechanics, gravitation, periodic motion, mechanics, mechanical waves, sound, hearing, temperature, heat, thermodynamics, electrical charge, electric field, electric potential, Gauss law, capacitance, dielectric, current, resistance, electromotive force, direct-current circuit, magnetic field, magnetic force, electromagnetic induction, inductance, alternating circuit, electromagnetic wave, Light, Geometric optics, Interference, Diffraction, Relativity, photons, quantum mechanics, wave functions, atomic structure, molecule, condensed matter, Nuclear physics, particle physics, cosmology, electromagnetism, optics, acoustics, modern physics

Sears and Zemansky's University Physics with Modern Physics, 14th Edition

**Author:** Hugh Young, Roger Freedman

**School:** University of Ibadan

**Department:** Science and Technology

**Course Code:** PHY112, PHY113, PHY114, PHY115

Topics: Units, Physical Quantities, Vector, Motion, Newton's law, Work, Kinetic energy, Potential energy, Energy conservation, Momentum, impulse, collision, rigid bodies, rotational motion, equilibrium, elasticity, fluid mechanics, gravitation, periodic motion, mechanics, mechanical waves, sound, hearing, temperature, heat, thermodynamics, electrical charge, electric field, electric potential, Gauss law, capacitance, dielectric, current, resistance, electromotive force, direct-current circuit, magnetic field, magnetic force, electromagnetic induction, inductance, alternating circuit, electromagnetic wave, Light, Geometric optics, Interference, Diffraction, Relativity, photons, quantum mechanics, wave functions, atomic structure, molecule, condensed matter, Nuclear physics, particle physics, cosmology, electromagnetism, optics, acoustics, modern physics

Physics for Scientists and Engineers with Modern Physics, 4th edition

**Author:** Douglas Giancoli

**School:** Edo University

**Department:** Science and Technology

**Course Code:** PHY121

Topics: measurement, estimating, motion, kinematics, dynamics, friction, circular motion, drag forces, gravitation, Newton's synthesis, work, energy, conservation of energy, linear momentum, rotational motion, angular momentum, static equilibrium, elasticity, fracture, fluids, oscillators, wave motion, sound, temperature, thermal expansion, ideal gas law, kinetic theory of gases, thermodynamics, electric charge, electric field, Gauss law, electric potential, capacitance, dielectrics, electric energy storage, electric currents, resistance, DC circuits, magnetism, magnetic field sources, electromagnetic induction, inductance, electromagnetic oscillations, AC circuits, Maxwell's equations, electromagnetic waves, light, reflection, refraction, lenses, optical instruments, wave nature of light, diffraction, polarization, quantum theory, quantum mechanics, molecules, solids, nuclear physics, radioactivity, nuclear energy, elementary particles

**Author:** Richard Dorf

**School:** Edo University

**Department:** Science and Technology

**Course Code:** PHY213

Topics: Electronics, Power Electronics, Optoelectronics, Microwaves, Electromagnetics, Radar, semiconductors, diodes, semiconductor manufacturing, Microlithography, transistors, Junction Field-Effect Transistors, Bipolar Transistors, Metal-Oxide Semiconductor Field-Effect Transistor, Single Electron Transistors, integrated circuits, integrated circuit technology, Surface Mount Technology, amplifier, signal analysis, active filters, power electronics, Power Semiconductor Devices, power conversion, Lasers, Electromagnetic Fields, magnetism, magnetic fields, magnetic recording, wave propagation, space propagation, wave guides, antennas, Fresnel Zone Plate Antenna, Microwave Devices, Lightning, pulse radar, continuous radar, Electroacoustic Transducers, Ferroelectric Materials, Piezoelectric Materials, Electrostriction, hall effect, superconductivity, dielectric, insulators

**Author:** Paul Amon

**School:** Benue State University, Makurdi

**Department:** Engineering

**Course Code:** PHY103

Topics: Electricity, magnetism, Electromagnetic interaction, electrostatic force, electric charge, Coulomb’s law, Electric potential, potential difference, electron volt, electric dipole, dipole moment, electric flux, Gauss Theorem, capacitors, dielectrics, current electricity, electric current, Ohm’s Law, Electrical Resistance, Resistivity, Electrical Conductivity, Ohmic Conductors, Superconductors, Electric Cell, resistor combination, Electric energy, electric power, wattmeter, electrolysis

Physics for Scientists and Engineers with modern Physics ,10th Edition

**Author:** RA Serway, JW Jewitt

**School:** University of Ibadan

**Department:** Science and Technology

**Course Code:** PHY101

Topics: Modern physics, physics, measurement, motion, vectors, laws of motion, motion, circular motion, Energy of a System, energy, Linear Momentum, Collisions, rotation of rigid bodies, Angular Momentum, Static Equilibrium, Elasticity, Universal Gravitation, Fluid Mechanics, Oscillations, Mechanical Waves, Oscillatory Motion, wave motion, Superposition, Standing Waves, thermodynamics, temperature, Law of Thermodynamics, kinetic theory of gases, heat engines, entropy, electricity, magnetism, electric fields, Continuous Charge Distributions, Gauss’s Law, electric potential, Capacitance, Dielectrics, current, resistance, Direct-Current Circuits, magnetic fields, Faraday’s Law, inductance, Alternating-Current Circuits, electromagnetic waves, light, optics, image formation, wave optics, Diffraction Patterns, Polarization, Quantum Physics, relativity, Quantum Mechanics, atomic physics, Molecules, Solids, Nuclear Physics, Particle Physics, Cosmology

**Author:** Clive Maxfield, John Bird, MA Laughton, Andrew Leven, Ron Schmitt, Keith Sueker, Tim Williams

**School:** University of Benin

**Department:** Engineering

**Course Code:** EEE211

Topics: Electrical engineering, Electric Circuit, resistance, resistivity, series, parallel networks, potential divider, capacitors, inductors, electrostatic field, electric field strength, capacitance, capacitors, electric flux density, permittivity, dielectric strength, inductance, DC circuit theory, Kirchhoff's law, Thevenin's theorem, Norton’s Theorem, Maximum Power Transfer Theorem, alternating voltages, alternating currents, rectification, complex numbers, transient, Laplace Transforms, digital electronics, semiconductors, semiconductor diodes, bipolar junction transistor, Metal-oxide Semiconductor Field-effect Transistors, Gallium Arsenide Semiconductors, Light-emitting Diodes, Analog Electronics, Operational Amplifier, circuit simulation, interfacing, Microcontrollers, Microprocessors, Power Electronics, signals, signal processing, filter design, bandpass filter, notch filter, Switched Capacitor Filter, Monolithic Switched Capacitor Filter, Communications Systems, Analog Modulation Techniques, Digital Modulation Techniques, electromagnetics, Electromagnetic Spectrum, Microwave Techniques, magnetic fields, Electromagnetic Transients, Electromagnetic Interference, Traveling Wave Effects, transformers, Electromagnetic Compatibility

**Author:** PHY UNIZIK

**School:** Nnamdi Azikiwe University

**Department:** Science and Technology

**Course Code:** PHY102

Topics: Dielectrics, capacitor, conductor, resistivity, resistance, Wheatstone bridge, Lenz's law, Hall effect

**Author:** PHS106 FUNAAB

**School:** Federal University of Agriculture, Abeokuta

**Department:** Science and Technology

**Course Code:** PHS106

Topics: Static Electricity, conductors, insulators, Charge Quantization, Electric Force, Coulomb’s Law, Electric Field Strength, electric potential, Electric Potential Difference, Equipotential Surfaces, current electricity, Ohm’s Law

Electricity and magnetism complete lecture note

**Author:** Lawal, Olawepo

**School:** University of Ilorin

**Department:** Science and Technology

**Course Code:** PHY152

Topics: Ohm’s Law, ELECTRICITY, MAGNETISM, Capacitance, Dielectrics, Electric current, conductivity, conductors, Semiconductors, semiconductor-Diode, Magnetism, Hysteresis, Power, AC circuit, Conductivity, Mobility, Rectification, Magnetic field, Coulombs Laws, Gauss Laws

Power System Engineering Planning, Design, and Operation of Power Systems and Equipment ,2nd edition

**Author:** Juergen Schlabbach, Karl-Heinz Rofalski

**School:** Federal University of Technology, Owerri

**Department:** Engineering

**Course Code:** PSE513

Topics: Power System Engineering, Power System Engineering planning, Power System Engineering design, power system load, load forecast, Low-Voltage Systems, power system planning principles, power system planning criteria, loss evaluation, energy losses, power losses, power system topology, Busbar Arrangements, Double Busbar Arrangement, transformers, Thermal Permissible Loading, cable systems, Permissible Current, overload lines, Flexible AC Transmission Systems, Parallel Compensation of Lines, Serial Compensation of Lines, Phase-Shifting Equipment, HVDC-Transmission, Converter Stations, Breakers, Reactors, Electrodes, Load-Flow Calculation, Short-Circuit Current Calculation, faults, disturbances, Overcurrent Protection, Impedance Protection, Differential Protection of Lines, Ground-Fault Protection, Buchholz Protection, Overvoltages, Insulation Coordination, Slow-Front Overvoltages, Fast-Front Overvoltages, Neutral Earthing, Residual Current Compensation

Power Systems Analysis ,3rd edition

**Author:** Hadi Saadat

**School:** University of Ibadan

**Department:** Engineering

**Course Code:** EEE511

Topics: Power Systems Analysis, power system, electric power generation, fossil power plants, hydroelectric power plants, solar power, wind power plants, geothermal power, biomass power plants, fuel cell, modern power system, smart grid, energy control center, complex power, complex power balance, power factor corrrection, per phase analysis, balanced three-phase power, generator models, transformer models, per unit system, transformer performance, autotransformers, three-winding transformers, transmission line parameters, line model, line compensation, power flow analysis, bus admittance matric, Gauss-Seidel power flow solution, Newton-Raphson method, power flow programs, synchronous machine, transient analysis, unbalanced fault, stability, swing equation, transoent stability, steady-state stability, power system control, automatic generation control, load frequency control, MATLAB, frequency response, reactive power, voltage control, excitation system

Basic Electrical Engineering ,2nd edition

**Author:** UA Bakshi, VU Bakshi

**School:** University of Nigeria, Nsukka

**Department:** Engineering

**Course Code:** EEE211

Topics: Electricity, charge, DC Circuits, Network terminology, electrical networks, energy source, Ohm's law, short circuit, open circuit, source transformation, Kirchhoff's law, Cramer's rule, star and delta connection, superposition theorem, Thevenin's theorem, Norton's theorem, maximium power transfer theorem, loop current, magnetic circuit, magnetic flux, pole strength, permeability, magnetomotive force, magnetic circuits, electromagnetic induction, electrostatics, electric flux, capacitor, AC waveform, phasor, impedance, capacitance reactance, complex power, star delta, transformer, magnetic losses, autotranformer, three phase, polyphase AC circuit

Electrical Machines, 2nd edition

**Author:** Smarajit Ghosh

**School:** Edo University

**Department:** Engineering

**Course Code:** EEE213

Topics: Electrical Machines, electromagnetism, Faraday's law, Lenz's law, magnetic circuits, magnetomotive force, magnetic field intensity, magnetic flux, single-phase circuits, power triangle, complex power, transformers, transformer oil, Buchholz relay, transformer tank, magnetic leakage, equivalent reactance, sumpner's test, pulse transformer, welding transformer, Three-phase transformers, rotating machines, electromagnetic torque, reluctance torque, DC generators, DC motors, voltage equation, Back EMF, Electric braking, synchronous generators, voltage regulation, Two reaction theory, synchronous motors, polyphase induction motor, single phase motor

Principles of Physics For Scientists and Engineers

**Author:** Hafez Radi, John Rasmussen

**School:** University of Nigeria, Nsukka

**Department:** Science and Technology

**Course Code:** PHY121

Topics: Dimensions, Units, vectors, mechanics, motion, force, work, energy, power, linear momentum, collisions, center of mass, rotational motion, angular momentum, matter, thermodynamics, thermal expansion, kinetic theory of gases, sound wave, light, wave, oscillations, wave motion, optics, interference, diffraction, polarization, electricity, electric field, gauss law, electric potential, capacitor, capacitance, electric circuit, magnetism, magnetic field, Faraday's law, alternating current, maxwell's equation, inductance, oscillating circuits, AC circuits

### Past Questions related to Basic principle of physics 2(introductry electricity and magnetism )

General Physics for Life Sciences 3 practice questions

**Year:** 2017

**School:** University of Nigeria, Nsukka

**Department:** Science and Technology

**Course Code:** PHY114

Topics: Gauss law, Coulombs law, electric potential, direct current circuits, magnetism, alternating currents, electromagnetic induction, Maxwell's equation, modern physiscs, atomic structure, Coulombs force

Power system engineering studio 1

**Year:** 2020

**School:** Federal University of Technology, Owerri

**Department:** Engineering

**Course Code:** PSE413

Topics: Power system engineering studio, Kirchhoff's current law, self admittance, transfer admittance, electrical faults, symmetrical faults, reactors, short circuit current, conductor flux, skin effect, proximity effect, line resistance, insulating materials, distribution transformer tap changer, lightening arresters, distribution station, insulation oil, electrical power angle, swing equation, power system stability, transmission line studies

25 Electricity and magnetism question by student christian movement

**Year:** 2016

**School:** University of Ibadan

**Department:** Science and Technology

**Course Code:** PHY112

Topics: capacitor, battery, Magnet, resistivity, resistor, resistance, potential difference, work, magnetic circuit

Electricity and Magnetism PSSF mock test

**Year:** 2018

**School:** University of Ibadan

**Department:** Science and Technology

**Course Code:** PHY112

Topics: electrostatic force, hydrogen atom, electric field.potential difference, capacitor, magnetic field, cyclotron

Electrical power plant engineering test & exam

**Year:** 2020

**School:** Federal University of Technology, Owerri

**Department:** Engineering

**Course Code:** PSE409

Topics: Electrical power plant engineering, energy resources, renewable energy, non renewable energy, power plant layout, steam power plant, fossil-fueled powerplant, hydro-electric power plant, fossil fueled plant energy conversion plant, solar farm

**Year:** 2011

**School:** University of Uyo

**Department:** Science and Technology

**Course Code:** PHY121

Topics: electrolysis, inductance, electromagnetic waves, electricity, capacitance, Compton effect

Soil plants and energy balance Principles

**Year:** 2019

**School:** Federal University of Technology, Owerri

**Department:** Engineering

**Course Code:** ABE504

Topics: Soil plants, energy balance Principles, hydrostatic potential, capillary potential, hygroscopic potential, surface tension, soil moisture stress, wetting front, saturation capacity, field capacity, moisture equivalent, wilting coefficient, wilting range, available water, matrix potential, gravitational potential, solute potential, pressure potential, saturated condition, dry condition, transpiration, evapotranspiration

SPECIAL TOPICS IN POWER SYSTEM ENGRINEERING

**Year:** 2018

**School:** Federal University of Technology, Owerri

**Department:** Engineering

**Course Code:** PSE514

Topics: electricity market, power system operation, power system control systems, power system communication systems, solar installation, power lines

Electricity and Magnetism question slides by chordry

**Year:** 2018

**School:** University of Ibadan

**Department:** Science and Technology

**Course Code:** PHY112

Topics: electric field, electric quadrupole, electric field intensity, electric dipole, metal sphere

PHY152 CBT exam practice questions

**Year:** 2020

**School:** University of Ilorin

**Department:** Science and Technology

**Course Code:** PHY152

Topics: Resistance, capacitance, Shunt, electricity, magnetism, Coulomb's Law, Charge, electric field, Gauss' Law

APPLIED ELECTRICITY 1-2017&2019

**Year:** 2019

**School:** Federal University of Technology, Owerri

**Department:** Science and Technology

**Course Code:** PHY201

Topics: inductor, inductance, resistor, thevenin theorem, star, delta, resistivity, potential difference

SOLID STATE PHYSICS 2-2013,2014,2015,2017&2019 TEST

**Year:** 2019

**School:** Federal University of Technology, Owerri

**Department:** Science and Technology

**Course Code:** PHY413

Topics: sommerfield theory, electron gas, energy level, superconductivity, meissner effect, isotopic mass, bloch function, kronig-penny model, insulators, diamagnetism, ferromagnetism, antiferromagnetism

Physics for agriculture & biological science students 2009&2012

**Year:** 2012

**School:** Federal University of Agriculture, Abeokuta

**Department:** Science and Technology

**Course Code:** PHS106

Topics: electric field intensity, electric potential, capacitor, waves, electronic configuration

High voltage direct current transmission

**Year:** 2019

**School:** Federal University of Technology, Owerri

**Department:** Engineering

**Course Code:** PSE510

Topics: High voltage direct current transmission, Homopolar high voltage DC, Back-to-back HVDC scheme, HVDC Thyristor valves, converter transformer, power transformer, AC harmonic filters, HVDC transmission configurations, Graetz bridge converter

### Tests related to Basic principle of physics 2(introductry electricity and magnetism )

**School:** WAEC, JAMB & POST UTME

**Department:**

**Course Code:** JAMB

Topics: Physics, JAMB, Friction, work, force, motion, speed, velocity, energy, hydraulic press, relative density, hydrometer, gas law, sound wave, wave, light, mirror,capacitor, electricity, pressure