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cycles
Impulse
Non Metals
coordinates.
and
KHUZDAR
UET
relative acceleration.
BALOCHISTAN
Material failure analysis.
walled pressure vessels.
momentum,
THERMODYNAMICS-I 3 (2+1)
Third Semester
ENGINEERING DYNAMICS 4 (3+1)
MECHANICS OF MATERIALS-I 3 (2+1)
fiberglass, composite materials and polymers.
compounding, forming operations etc, plastics.
conservation
of
momentum.
work and energy relationship, impulse and momentum equation.
Properties of pure substances: phase diagram, use of steam tables.
various methods, residual stresses, analysis of statically indeterminate
Kinematics of Particles. Rectilinear motion, plane curvilinear motion,
Plane Kinetics of Rigid Bodies: Force, mass, and acceleration, equation
stress & strain, Hooke’s law, stress strain relationship, thermal stresses,
Plane Kinematics of Rigid Bodies. Angular motion relations, absolute
Basic concepts: the system, control volume, working substance, heat
Kinetics of Particles. Force, mass, and acceleration, Newton’s second
and work, state and properties, thermodynamic process and cycle,
of motion, translation, fixed axis rotation, general plane motion,
materials and their types, Introduction to Composite Materials,
Composition, properties and users of plastics, rubber, ceramics,
Ceramics and refractories: Ceramic bonding, properties, ceramics
material, crystalline and amorphous, silica, glass etc, refractory
motion, curvilinear motion. Work and energy, potential energy.
Polymers: Molecular structure, bonding & classification of polymer
rectangular coordinates, normal and tangential coordinates polar
law of motion, equations of motion, kinetic diagrams, rectilinear
motion, relative velocity, instantaneous centre of zero velocity,
thermodynamic temperature scale, concept of open and closed
bending of beams, shear stresses in beams, beam deflection using
problems, stress concentration, thin and thick curved bars, thin
Mechanical properties of materials, tensile, compressive and shear
torsion of circular bars, shearing force and bending moment, pure
first law of thermodynamics, ideal gas laws, equations of state,
and
Idealized
integration
Part-2 (75%)
Fluid statics
Part-1 (25%).
multiplexers,
uniform
Fluid dynamics
of
P-V
Micro-controllers.
etc.)
flow
Electronics 3 (2+1)
and
form of Fourier series.
vectors,
T-S
Properties of liquids and gas
curl,
FLUID MECHANICS-I 3 (2+1)
Sequential
processes,
logic
Bernoulli’s equation, flow in conduits.
diagrams
Fourth Semester
steady
gradient
of
flow
and
(flip-flops,
cycles,
COMPLEX VARIABLES & TRANSFORMS 3 (3+0)
Buckingham- Pi theorem, Reynolds’ law of similitude
Dimensional analysis, similitude and its applications
energy
registers,
divergence;
Rankine
equation
Semiconductors, rectifiers, transistors, relays, Operational Amplifiers.
at rest, stability of a floating body, surface tension and capillary tubes.
cycle
counters,
Green’s
and
and
and
ROM,
steady
its
Stoke’s
PROM,
flow
01
Carnot cycle and concept of entropy and its application to flow and non-flow processes, enthalpy-
Microprocessors (registers; ALU; CU; memory, address, data and control buses). ADC and DAC.
EPROM).
theorem.
inverse Laplace transform, applications to the solutions of ordinary differential equations.
application.
vacuum pressures, difference between static and dynamic pressure, flow velocity and flow rate
Fourier Series. Fourier theorem and coefficients in Fourier series, even and odd functions, complex
devices.
Thermodynamic processes relationship: constant volume, constant pressure, constant temperature,
constant enthalpy and general law processes, steady state and steady flow process, uniform state
Number systems, Boolean Algebra, gates. Combinational logic (adders, comparators, decoders,
of motion, Bernoulli’s equation, impulse and momentum, one dimensional viscous flow, generalized
One dimensional inviscid flow (flow filament theory), equation of continuity, Euler’s equations
of variables. Applications. Solution by similarity parameters, applications. Differentiation and
Partial differential equations : introduction, types, boundary conditions, solution by separation
Laplace Transform : Laplace transform of elementary functions; Laplace transform theorems,
Ideal and real fluids, viscosity and compressibility of fluids, fluid pressure, absolute, gauge and
entropy diagrams of working fluids, thermodynamic cycles, efficiencies, and their applications,
Second law of thermodynamics: definitions, applications, reversible and irreversible processes,
circuits, force on container wall, force on flat surfaces, force on curved surfaces, buoyancy of fluid
gravity, homogeneous fluid, constant-velocity rotation of a liquid around-fixed axis, hydraulic
Measurement of static pressure, stagnation pressure, pressure in a fluid under the action of
