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Sr No
Practical Outcomes Trace your electrical engineering Laboratories
1.
draw layout of electrical laboratory
prepare charts of electrical safety and demonstrate the operation of Fire extinguisher equipments
demonstrate and use electric tools such as pliers screwdriver insulation cutter tester
2.
3.
Measure of EMF of DC source and to calculate its internal resistance by connecting it to an external load part 1 Measure of EMF of DC source and to calculate its internal resistance by connecting it to an external load part 2
4.
determine the equivalent resistance of series connection
5.
Determine the equivalent resistance of parallel connection
6.
7.
Use case of current law and gift shops Voltage law to determine current and voltages in electric circuits part 1 Use case of current law and Kirchhoff's Voltage law to determine current and voltages in electric circuits part 2
8.
In the series connected circuits determine the equivalent capacitance
9.
In The parallel connected circuits determine the equivalent capacitance Determine the time constant of RC circuit analytically and graphically including
10.
plotting the charging and discharging curves of a capacitor see through resistor R part 1 Determine the time constant of RC circuit analytically and graphically including
11.
plotting the charging and discharging curves of a capacitor see through resistor R part 2
12.
For the given magnetic material find the BH curve and hysteresis loop part 1
13.
For the given magnetic material find the BH curve and hysteresis loop part 2
14.
For the given magnetic material find the BH curve and hysteresis loop part 3
15.
16.
Use Faraday's first law of electromagnetic induction to analyse the behaviours of statically induced EMF and dynamically induced EMF in the given circuit part 1 Use Faraday's first law of electromagnetic induction to analyse the behaviours of statically induced EMF and dynamically induced EMF in the given circuit part 2
Sr No 1.
Unit Outcomes Basic Electrical Parameters
Topis and Subtopics 1. Direct current DC alternating current AC voltage source and
Unit 1 basic electrical parameters
current source ideal and practical 2. Electric current electric potential,
1. Distinguish the features of the given electrical parameters
potential difference PD electromotive force EMF
2. Explain the given terms
3. Electric work power and energy
3. Describe the given effect of the
4. Resistance resistivity conductivity
electric current with a relevant application 4. Calculate work power and energy for given circuits
effect of temperature on resistance 5. Types of resistor and their application 6. Heating effect magnetic effect chemical effect of electric current
7.
DC Circuits
1. Ohm's law internal resistance of
Apply Ohm's law to calculate internal
source internal voltage drop
resistance of given circuit distinguish
terminal voltage
the given two parameters calculate equivalent resistance for a given circuit apply Kirchhoff law to
2. Resistance in series resistance in parallel 3. Active passive linear nonlinear
determine current and voltage in the
circuits unilateral circuits bilateral
given circuit
circuits passive and active network node branch loop mesh 4. Kirchhoff's current law jobs Voltage law
8.
Capacitors
1. Capacitor parallel plate capacitor 2. Various connections of capacitor
Determine the construction of the
3. Energy stored in capacitor
given type capacitor describe the
4. Charging and discharging of
working of the capacitor in given circuit calculate equivalent
capacitor 5. Breakdown voltage and dielectric
capacitance in given DC circuit plot
strength type of capacitor and
charging and discharging curves for
application
the given capacitor 6.
Magnetic Circuits
1. Magnetic lines of force flux, flux density magnetic flux intensity
Distinguish the given terms related to
2. Magneto motive force MMF
magnetic circuit calculate various
ampere turns 80 reluctance
parameters of given magnetic circuit
Permeance reluctivity electric and
plot BH curve and hysteresis loop of a
magnetic circuits series magnetic
given magnetic materials compare the
and parallel magnetic circuit
performance of the given series and
3. Magnetization curve BH curve
parallel magnetic circuit
4. Magnetic hysteresis hysteresis loop application
7.
Electromagnetic Induction
1. Development of induced EMF and current Faraday's law of
Describe the use of Faraday's law of electromagnetic induction in the given application distinguish between the
electromagnetic induction 2. Static and dynamic EMF lenz law Fleming's right hand rule
given types of EMF apply Faraday's
3. self inductance coefficient of self
law to calculate induced EMF in the
inductance mutual inductance
given circuit calculate self inductance
coefficient of mutual inductance
and energy stored in magnetic field in
and self induced EMF and
given circuits
mutually induced EMF coefficient of coupling 4. inductance in series 5. types of inductors and their application and energy stored in magnetic field
Practical Outcomes Trace your electrical engineering Laboratories
1.
draw layout of electrical laboratory
prepare charts of electrical safety and demonstrate the operation of Fire extinguisher equipments
demonstrate and use electric tools such as pliers screwdriver insulation cutter tester
2.
3.
Measure of EMF of DC source and to calculate its internal resistance by connecting it to an external load part 1 Measure of EMF of DC source and to calculate its internal resistance by connecting it to an external load part 2
4.
determine the equivalent resistance of series connection
5.
Determine the equivalent resistance of parallel connection
6.
7.
Use case of current law and gift shops Voltage law to determine current and voltages in electric circuits part 1 Use case of current law and Kirchhoff's Voltage law to determine current and voltages in electric circuits part 2
8.
In the series connected circuits determine the equivalent capacitance
9.
In The parallel connected circuits determine the equivalent capacitance Determine the time constant of RC circuit analytically and graphically including
10.
plotting the charging and discharging curves of a capacitor see through resistor R part 1 Determine the time constant of RC circuit analytically and graphically including
11.
plotting the charging and discharging curves of a capacitor see through resistor R part 2
12.
For the given magnetic material find the BH curve and hysteresis loop part 1
13.
For the given magnetic material find the BH curve and hysteresis loop part 2
14.
For the given magnetic material find the BH curve and hysteresis loop part 3
15.
16.
Use Faraday's first law of electromagnetic induction to analyse the behaviours of statically induced EMF and dynamically induced EMF in the given circuit part 1 Use Faraday's first law of electromagnetic induction to analyse the behaviours of statically induced EMF and dynamically induced EMF in the given circuit part 2
Sr No 1.
Unit Outcomes Basic Electrical Parameters
Topis and Subtopics 1. Direct current DC alternating current AC voltage source and
Unit 1 basic electrical parameters
current source ideal and practical 2. Electric current electric potential,
1. Distinguish the features of the given electrical parameters
potential difference PD electromotive force EMF
2. Explain the given terms
3. Electric work power and energy
3. Describe the given effect of the
4. Resistance resistivity conductivity
electric current with a relevant application 4. Calculate work power and energy for given circuits
effect of temperature on resistance 5. Types of resistor and their application 6. Heating effect magnetic effect chemical effect of electric current
7.
DC Circuits
1. Ohm's law internal resistance of
Apply Ohm's law to calculate internal
source internal voltage drop
resistance of given circuit distinguish
terminal voltage
the given two parameters calculate equivalent resistance for a given circuit apply Kirchhoff law to
2. Resistance in series resistance in parallel 3. Active passive linear nonlinear
determine current and voltage in the
circuits unilateral circuits bilateral
given circuit
circuits passive and active network node branch loop mesh 4. Kirchhoff's current law jobs Voltage law
8.
Capacitors
1. Capacitor parallel plate capacitor 2. Various connections of capacitor
Determine the construction of the
3. Energy stored in capacitor
given type capacitor describe the
4. Charging and discharging of
working of the capacitor in given circuit calculate equivalent
capacitor 5. Breakdown voltage and dielectric
capacitance in given DC circuit plot
strength type of capacitor and
charging and discharging curves for
application
the given capacitor 6.
Magnetic Circuits
1. Magnetic lines of force flux, flux density magnetic flux intensity
Distinguish the given terms related to
2. Magneto motive force MMF
magnetic circuit calculate various
ampere turns 80 reluctance
parameters of given magnetic circuit
Permeance reluctivity electric and
plot BH curve and hysteresis loop of a
magnetic circuits series magnetic
given magnetic materials compare the
and parallel magnetic circuit
performance of the given series and
3. Magnetization curve BH curve
parallel magnetic circuit
4. Magnetic hysteresis hysteresis loop application
7.
Electromagnetic Induction
1. Development of induced EMF and current Faraday's law of
Describe the use of Faraday's law of electromagnetic induction in the given application distinguish between the
electromagnetic induction 2. Static and dynamic EMF lenz law Fleming's right hand rule
given types of EMF apply Faraday's
3. self inductance coefficient of self
law to calculate induced EMF in the
inductance mutual inductance
given circuit calculate self inductance
coefficient of mutual inductance
and energy stored in magnetic field in
and self induced EMF and
given circuits
mutually induced EMF coefficient of coupling 4. inductance in series 5. types of inductors and their application and energy stored in magnetic field
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