Syllabus As
Transcript of Syllabus As
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CP 01 00 02
Applied Science
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SYLLABUS
1.0 Physical world
SI units : Basic SI unitsDerived SI, Prefixes,
Conversionsdos and donts of SI usage
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2.0 Force, Motion and Energy
2.1 Linear Motion : Basic definitions of linear motion
motionspeedvelocityscalar quantityvectorquantityuniform velocity acceleration-uniform
acceleration acceleration due to gravityequations of
motionNewtons laws of motion first law
inertiaforcemomentumsecond law derivationF=m x a, units of forceimpulse- third law, principles of
conservation of linear momentumworkpower
energypotential energyderive PE= mxgxh, kinetic
energyderive KE = (1/2) x m x 2principle of
conservation of energy-shop related problems
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3.0 Composition and resolution of forces
3.1 Basic definitions: resultantequilibrant
3.2 Analytical methods of finding out resultant
parallelogram law of forcesstatement, proof-by
method of resolution-problems
3.3 Graphical methods for the resultant force: triangle law
of forcespolygon law of forcesproblems
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4.0 Equilibrium of forces
4.1 Basic definitions: coplanar forces- concurrent
forces-coplanar concurrent forces-coplanar non-
concurrent forces-non coplanar concurrent/non
concurrent forces.
4.2 Analytical method for studying the equilibrium of
forces- Lamis theorem-statement, proof-problems
4.3 Graphical method for studying equilibrium of forces:converse of law of triangle of forces-converse of the
law of polygon of forces-problems
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4.4 Moments and its applications: Moment of a force-clockwise moment-anticlockwise moment-law of
moments-Varignons principle of moments for
concurrent forcesparallel forceslike parallel forces
coupleclockwise, anticlockwise moment of couple
work done by a coupleconditions of equilibrium ofany system of coplanar forcesproblems
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5.0 Center of gravity and moment of inertia
5.1 Methods of finding out centroid of simple figures :by geometrical considerationsfor the method of
moments
5.2 Centroid of sections, with cut out holes : shop related
problems5.3 Define moment of inertia of a plane figures
5.4 Calculate modular of a section
5.5 State and write expression for :theorem of
perpendicular axistheorem of parallel axis
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6.0 Heat
6.1 Thermometry: principle of resistancethermometeradvantage of choosing platinum wire
for electric resistance thermometertemperature
measurement by electric resistance thermometer
working of thermo couplethermostatsthermometer
vs pyrometer
6.2 Calorimetric: heat energydefine specific heat capacity
of a solid and liquidspecific heat of a gasderive the
relationship Cp/Cv = constantproblems.
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6.3 Heat transferconduction of heatfactors
affecting heatconduction- derive expression forthermal conductivityexamples for thermal
conductors
and insulatorspractical applicationconvection
comparative study of different modes of heat transferproblems
6.4 Expansion of gases : Isothermal expansionadiabatic
expansiondefine critical temperature and critical
pressureapplication in mouldingproblems.
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7.0 Theorem of acids and bases
7.1 Analyzing of acidic, basic and neutral solutions
7.2 Hydrogen ion concentration (pH value)
8.0 Solar energy and its applications8.1 Introduction
8.2 Solar energy calculations and solar angles
8.3 Solar collection insulation values
8.4 Solar systems
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