http://repository.fuoye.edu.ng:80/handle/123456789/229 2026-04-16T09:48:09Z http://repository.fuoye.edu.ng:80/handle/123456789/1082 Title: Development of Roofing Sheet Material Using Groundnut Shell Particles and Epoxy Resin as Composite Material Authors: Akindapo, Jacob Olaitan; Binni, Umar Alhaji; Sanusi, Olawale Monsur Abstract: The present work is on the development of roofing sheet material using groundnut shell particles and epoxy resin as composite material. Three different samples of roofing sheets “A”, “B” and “C” were prepared and produced from three different weight particle length sizes of 0.5mm, 1mm and 1.5mm at a weight ratio of 70:30 between epoxy and groundnut shell. The sample roofing sheets were cast manually and the rate of water absorption, tensile strength, impact and flexural strength due to bending and deflection were all experimentally evaluated. The sample specimen A with a particle length of 0.5mm have the lowest rate of water absorptivity value of 8.3% ,with the highest impact value of 29.65KJ/m2. Likewise sample B with a particle length of 1mm have the highest ductility and tensile strength of 2.356mm and 8.25N/mm2 respectively. The results revealed that Groundnut shell particles can be used as reinforcement for polymer matrix for the production of roofing sheets. Sample “A” was adopted in this work because of its excellence performance properties. 2015-01-01T00:00:00Z http://repository.fuoye.edu.ng:80/handle/123456789/1080 Title: Evaluating the performance of different types of cutting fluid in the machining of aluminium-manganese alloy in turning operation Authors: Sanusi, Olawale Monsur; Bello, Yekini; Akindapo, Jacob Olaitan Abstract: The research aimed to evaluate the performance of neem seed oil as a cutting fluid in orthogonal machining of aluminium-manganese alloy 3003, carbide cutting tool insert was used as a cutting tool under different machining parameters of spindle speed, feed rate and depth of cut with different types of cutting fluids (neem seed oil and soluble oil) as well as dry machining. The results were obtained in terms of the average surface roughness of the machined workpiece and flank wear under different cutting parameters (spindle speed, feed rate and depth of cut). The results indicated that the neem seed oil cutting fluid reduced the surface roughness by 39% and 22% as compared to dry turning and soluble oil cutting respectively. It was established from the results that the neem seed oil cutting fluid reduced the flank wear by 72% and 56% as compared to dry turning and soluble oil cutting respectively. Based on the study, it can be concluded that neem seed oil cutting fluid facilitates a better surface finish and substantial reduction in tool wear when compared with dry and soluble oil machining. 2015-08-01T00:00:00Z http://repository.fuoye.edu.ng:80/handle/123456789/532 Title: Vector and Applied Mathematics III Authors: FUOYE Abstract: Geometric representation of vectors in 1 -3 dimensions, components, direction cosines. • Addition, Scalar, multiplication of vectors, linear independence. Scalar and vector products of two vectors. • Differentiation and integration of vectors with respect to a scalar variable. • Two-dimensional co-ordinate geometry. Straight lines, circles, parabola, ellipse, hyperbola. Tangents, normals, • Kinematics of a particle. Components of velocity and acceleration of a particle moving in a plane. • Force, momentum, laws of motion under gravity, projectiles, resisted vertical motion. Angular momentum. • Simple harmonic motion, elastic string, simple pendulum, impulse. Impact of two smooth sphere and of a sphere on a smooth surfac Description: Geometric representation of vectors in 1 -3 dimensions, components, direction cosines. • Addition, Scalar, multiplication of vectors, linear independence. Scalar and vector products of two vectors. • Differentiation and integration of vectors with respect to a scalar variable. • Two-dimensional co-ordinate geometry. Straight lines, circles, parabola, ellipse, hyperbola. Tangents, normals, • Kinematics of a particle. Components of velocity and acceleration of a particle moving in a plane. • Force, momentum, laws of motion under gravity, projectiles, resisted vertical motion. Angular momentum. • Simple harmonic motion, elastic string, simple pendulum, impulse. Impact of two smooth sphere and of a sphere on a smooth surfac 2015-03-26T00:00:00Z http://repository.fuoye.edu.ng:80/handle/123456789/531 Title: Use of Library and ICT Authors: FUOYE Abstract: Introduction to Library and conceptual clarification • Types of Libraries • Library organisation • Serial and Research departments • Readers services division and reference collections • Library rules and regulations • Library Automation • Hands on on online databases such as TEEAL, MIT Courseware, HINARI, OARE, AGORA, etc • The basic concepts of processes, programs and the components of an Operating System. • Basic knowledge of computer hardware • Demonstrating knowledge of Open Source Applications in the Workplace as they relate to Closed Source equivalents. • Navigation systems on a Linux Desktop and where to go for help. • A rudimentary ability to work on the command line and with files. • The use of basic command line editor. Description: Introduction to Library and conceptual clarification • Types of Libraries • Library organisation • Serial and Research departments • Readers services division and reference collections • Library rules and regulations • Library Automation • Hands on on online databases such as TEEAL, MIT Courseware, HINARI, OARE, AGORA, etc • The basic concepts of processes, programs and the components of an Operating System. • Basic knowledge of computer hardware • Demonstrating knowledge of Open Source Applications in the Workplace as they relate to Closed Source equivalents. • Navigation systems on a Linux Desktop and where to go for help. • A rudimentary ability to work on the command line and with files. • The use of basic command line editor. 2015-03-26T00:00:00Z http://repository.fuoye.edu.ng:80/handle/123456789/502 Title: Introduction to Entrepreneurship Authors: FUOYE Abstract: History and background of entrepreneurship • Theories of entrepreneurship thought • Definition of entrepreneurship and management • Entrepreneurship theory and Nigeria experience • Approaches to entrepreneurship; psychological approach and distinctive competence • Understanding the entrepreneurship mindset • Business opportunities profile • Entrepreneurship case analysis/training workshop approach, sociological Description: History and background of entrepreneurship • Theories of entrepreneurship thought • Definition of entrepreneurship and management • Entrepreneurship theory and Nigeria experience • Approaches to entrepreneurship; psychological approach and distinctive competence • Understanding the entrepreneurship mindset • Business opportunities profile • Entrepreneurship case analysis/training workshop approach, sociological 2015-03-25T00:00:00Z http://repository.fuoye.edu.ng:80/handle/123456789/501 Title: Heat Treatment Authors: FUOYE Abstract: Nucleation and growth processes in metals with particular reference to austenite formation and decomposition, discontinuous precipitation, particle coarsening, martensitic transformation. Detailed heat treatment of special important commercial materials especially bearing steels, aluminium alloys, titanium alloys, nickel based alloys, high strength low alloy steel and stainless steels. Description: Nucleation and growth processes in metals with particular reference to austenite formation and decomposition, discontinuous precipitation, particle coarsening, martensitic transformation. Detailed heat treatment of special important commercial materials especially bearing steels, aluminium alloys, titanium alloys, nickel based alloys, high strength low alloy steel and stainless steels. 2015-03-25T00:00:00Z http://repository.fuoye.edu.ng:80/handle/123456789/500 Title: Heat and Mass Transfer Authors: FUOYE Abstract: Basic derivation of transport properties based on kinetic theory of gases. Use of dimensionless parameters; Re, Se, Pr. Basic heat transfer equations and mechanisms' steady state and unsteady state heat transfer. Heat transfer coefficients. Application of dimensional analysis to heat flow. Basic mass transfer equations. Mass transfer equations and models. Mass transfer between multiple phases; Mass transfer equipment; Motion of single particles in fluids. Terminal falling velocities. Calculation of pressure drops. Counter current and co-current flow of fluids through packed columns. Theory of similarity, Heat transfer in forced cross and longitudinal flow; Heat transfer and Hydraulic Resistance; Heat transfer by free convection and condensing vapours; boiling liquids; Radiation heat transfer between solids separated by a transparent (diathermal)participating medium; Radiation heat transfer in absorbed medium, calculation of heat exchangers. Description: Basic derivation of transport properties based on kinetic theory of gases. Use of dimensionless parameters; Re, Se, Pr. Basic heat transfer equations and mechanisms' steady state and unsteady state heat transfer. Heat transfer coefficients. Application of dimensional analysis to heat flow. Basic mass transfer equations. Mass transfer equations and models. Mass transfer between multiple phases; Mass transfer equipment; Motion of single particles in fluids. Terminal falling velocities. Calculation of pressure drops. Counter current and co-current flow of fluids through packed columns. Theory of similarity, Heat transfer in forced cross and longitudinal flow; Heat transfer and Hydraulic Resistance; Heat transfer by free convection and condensing vapours; boiling liquids; Radiation heat transfer between solids separated by a transparent (diathermal)participating medium; Radiation heat transfer in absorbed medium, calculation of heat exchangers. 2015-03-25T00:00:00Z http://repository.fuoye.edu.ng:80/handle/123456789/499 Title: Government, Society and Economy Authors: FUOYE Abstract: This course looks at the evolution of state as a political unit and the role of individual in the development of a state (the organization and structure of government, evolution of the state, political philosophy), • socio-political economy of the society (system of government, the rule of law, resources and resource system, social mobility and social change), • the influence of government in the management (environment and culture, social stratification) of the society Description: This course looks at the evolution of state as a political unit and the role of individual in the development of a state (the organization and structure of government, evolution of the state, political philosophy), • socio-political economy of the society (system of government, the rule of law, resources and resource system, social mobility and social change), • the influence of government in the management (environment and culture, social stratification) of the society 2015-03-25T00:00:00Z http://repository.fuoye.edu.ng:80/handle/123456789/498 Title: General Physics III Authors: FUOYE Abstract: Molecular treatment of properties of matter, • Elasticity; Hooke's law, Young's shear and bulk moduli. • Hydrostatics; Pressure, buoyancy. Archimedes' Principles. • Hydrodynamics; Stream-lines, Bernoulli and continuity equations, turbulence, Reynold's number; viscosity; laminar flow, Poiseuille's equation. • Surface tension, adhesion, cohesion, capillarity, drops and bubbles. • Temperature; the zeroth law of thermodynamics; heat: gas laws; laws of thermodynamics; • Kinetic theory of gases. Description: Molecular treatment of properties of matter, • Elasticity; Hooke's law, Young's shear and bulk moduli. • Hydrostatics; Pressure, buoyancy. Archimedes' Principles. • Hydrodynamics; Stream-lines, Bernoulli and continuity equations, turbulence, Reynold's number; viscosity; laminar flow, Poiseuille's equation. • Surface tension, adhesion, cohesion, capillarity, drops and bubbles. • Temperature; the zeroth law of thermodynamics; heat: gas laws; laws of thermodynamics; • Kinetic theory of gases. 2015-03-25T00:00:00Z http://repository.fuoye.edu.ng:80/handle/123456789/497 Title: General Physics II Authors: FUOYE Abstract: Electrostatics, • Conductors and Currents, • dielectrics; magnetic fields and induction, • maxwell’s equations, electromagnetic oscillations and waves. • Applications. Description: Electrostatics, • Conductors and Currents, • dielectrics; magnetic fields and induction, • maxwell’s equations, electromagnetic oscillations and waves. • Applications. 2015-03-25T00:00:00Z http://repository.fuoye.edu.ng:80/handle/123456789/496 Title: General Physics I Authors: FUOYE Abstract: Space and Time, frames of reference , Units and dimension, kinematics; Fundamental laws of mechanics, Statics and dynamics; Galilean invariance; Universal gravitation work and energy; rotational dynamics and angular momentum, conservation laws Description: Space and Time, frames of reference , Units and dimension, kinematics; Fundamental laws of mechanics, Statics and dynamics; Galilean invariance; Universal gravitation work and energy; rotational dynamics and angular momentum, conservation laws 2015-03-25T00:00:00Z http://repository.fuoye.edu.ng:80/handle/123456789/495 Title: General Engineering Laboratory - I Authors: FUOYE Abstract: Laboratory investigations and report submission on selected experiments and projects drawn from introduction to applied mechanics, thermodynamic, materials science and workshop technology courses. Description: Laboratory investigations and report submission on selected experiments and projects drawn from introduction to applied mechanics, thermodynamic, materials science and workshop technology courses. 2015-03-25T00:00:00Z http://repository.fuoye.edu.ng:80/handle/123456789/494 Title: General Chemistry II Authors: FUOYE Abstract: Derivation of ideal gas equation leading to Boyle’s Law and Avogadro’s Hypothesis. The Avogadro Constant. A simplified treatment (e.g. particle in a box). The assumption for ideal behavior and their limitation for real gases at high pressure and low temperature. Boltzmann distribution and molecule speed. Boltzmann constant. • Liquids: the kinetic concept of the liquid state and simple kinetic-molecular description of melting, vaporization and vapor pressure saturated and unsaturated vapors. • Phase equilibra: Phase rule, equilibra involving one, two and three components. • Solids: Lattice structure and spacing. NaCl as ionic lattice. Cu as a cubic close-packed metal lattice. Graphite and Diamond –their properties as macromolecular structures. Lattice energy and forces between the particles in atomic molecular and ionic lattice. • Electrolysis: The factors affecting the mass of substance liberated during electrolysis. Relationship between Faraday and the Avogadro constant and the charge of the electron. • Equilibria: Chemical equilibria: Reversible reactions and dynamic equilibrium, factors affecting chemical equilibria: Le Chatelier’s principle. Equilibrium constraints: their definition and calculation in terms of concentrations Description: Derivation of ideal gas equation leading to Boyle’s Law and Avogadro’s Hypothesis. The Avogadro Constant. A simplified treatment (e.g. particle in a box). The assumption for ideal behavior and their limitation for real gases at high pressure and low temperature. Boltzmann distribution and molecule speed. Boltzmann constant. • Liquids: the kinetic concept of the liquid state and simple kinetic-molecular description of melting, vaporization and vapor pressure saturated and unsaturated vapors. • Phase equilibra: Phase rule, equilibra involving one, two and three components. • Solids: Lattice structure and spacing. NaCl as ionic lattice. Cu as a cubic close-packed metal lattice. Graphite and Diamond –their properties as macromolecular structures. Lattice energy and forces between the particles in atomic molecular and ionic lattice. • Electrolysis: The factors affecting the mass of substance liberated during electrolysis. Relationship between Faraday and the Avogadro constant and the charge of the electron. • Equilibria: Chemical equilibria: Reversible reactions and dynamic equilibrium, factors affecting chemical equilibria: Le Chatelier’s principle. Equilibrium constraints: their definition and calculation in terms of concentrations 2015-03-25T00:00:00Z http://repository.fuoye.edu.ng:80/handle/123456789/493 Title: General Chemistry I Authors: FUOYE Abstract: Physical Qualities and Units: The physical qualities understood as consisting of numerical magnitude and unit. • International system of units: Base units, mass length, time, current, amount of substance. Other units expressed as products or quotients of base units. • Relative Masses of Atoms and Molecules: Relative atomic, isotopic, molecular and formula masses. The More concepts and the Avogadro constant. Determination of relative masses. Calculation of empirical and molecular formulae. Chemical stoichiometry. • Atomic and Nuclear Basis: Evidence for atomic constituents: Electrons, protons and neutrons- their relative charge and masss. The nucleus, atomic number, mass isotopes and mass spectra. The electronic structure of the atom. Radio-activity; x-ray radiation and detection. Nuclear transformation and binding energy. Nuclear reaction and stability. Applications of radionuclides, electromagnetic radiation, wavelength and frequency. Radiation as energy, the plank relation, regions of electromagnetic spectrum absorption and emission of radiation. Wave particle duality and the de Broglie equation treated symbolically. Heisenberg uncertainty principle. Energy levels in atomic hydrogen and their quantum numbers. Ionization energy. The size, shape and orientation of atomic orbitals. Radical and Polar Description: Physical Qualities and Units: The physical qualities understood as consisting of numerical magnitude and unit. • International system of units: Base units, mass length, time, current, amount of substance. Other units expressed as products or quotients of base units. • Relative Masses of Atoms and Molecules: Relative atomic, isotopic, molecular and formula masses. The More concepts and the Avogadro constant. Determination of relative masses. Calculation of empirical and molecular formulae. Chemical stoichiometry. • Atomic and Nuclear Basis: Evidence for atomic constituents: Electrons, protons and neutrons- their relative charge and masss. The nucleus, atomic number, mass isotopes and mass spectra. The electronic structure of the atom. Radio-activity; x-ray radiation and detection. Nuclear transformation and binding energy. Nuclear reaction and stability. Applications of radionuclides, electromagnetic radiation, wavelength and frequency. Radiation as energy, the plank relation, regions of electromagnetic spectrum absorption and emission of radiation. Wave particle duality and the de Broglie equation treated symbolically. Heisenberg uncertainty principle. Energy levels in atomic hydrogen and their quantum numbers. Ionization energy. The size, shape and orientation of atomic orbitals. Radical and Polar 2015-03-25T00:00:00Z