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Assignment-2: Class: F.E. - (Sem - I) 2024-25

engineers cheers!!!!!

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12 views8 pages

Assignment-2: Class: F.E. - (Sem - I) 2024-25

engineers cheers!!!!!

Uploaded by

samisahirbaig
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as PDF, TXT or read online on Scribd
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Dr. D. Y.

PATIL INSTITUTE OF TECHNOLOGY PIMPRI, PUNE-411 018


DEPARTMENT OF FIRST YEAR ENGINEERING

CLASS: F.E. - (SEM – I) Assignment-2


SUB: Engineering Physics ACADEMIC YEAR: 2024-25

CO Statement POs
Learner will be able to deduce Schrödinger's wave equations and
CO2 1, 2, 6, 7, 8, 9
apply it to problems on the bound states by summarizing
fundamentals of quantum physics.
Questions Marks CO Bloom
No. Level
1 State the de Broglie hypothesis? Derive the equation of de 05 CO2 L4
Broglie wavelength in terms of K.E.
2 Explain principles of Quantum Computing. Give 05 CO2 L2
applications of Quantum Computing.
3 What is Schrodinger’s equation? Derive Schrodinger’s time 05 CO2 L1
independent wave equation.
4 Give the comparison between Classical computing and 05 CO2 L4
Quantum computing.
5 What is wave function? Give interpretation of wave 05 CO2 L2
function.
6 Which has longer de Brogle’s wavelength of 1 eV electron 05 CO2 L3
or 1 eV photon? Calculate the values and explain.
Dr. D. Y. PATIL INSTITUTE OF TECHNOLOGYPIMPRI, PUNE-411 018
DEPARTMENT OF FIRST YEAR ENGINEERING

CLASS: F.E.- (SEM –I) Assignment 2


SUB: Basic Electronics Engineering ACADEMIC YEAR: 2024-25

COs Statement POs

2 Identify types of diodes and plot their characteristics and also can compare BJT 1, 2, 3, 9, 11
with MOSFET.

Que. Question Description Marks CO Blooms


No: Level
Que.01 Explain the construction of BJT with respect to area 5 2 L2
and doping concentration mention the types of BJT
Draw symbol.

Que.02 Draw and explain input & output characteristics of a 5 2 L1,2


transistor in CE configurations.

Que.03 Explain with circuit diagram a single stage common 5 2 L1,2


emitter amplifier and state the function of each
component in circuit.

Que.04 Explain construction and characteristics of N channel 5 2 L2


enhancement MOSFET.

Que.05 Draw and Explain MOSFET as switch 5 2 L1,2

Que.06 Explain N Well method of VLSI CMOS 5 2 L2


manufacturing.

Que.07 Draw and Explain Channel length of VLSI 5 2 L1,2


Dr. D. Y. PATIL INSTITUTE OF TECHNOLOGY PIMPRI, PUNE-411 018
DEPARTMENT OF FIRST YEAR ENGINEERING
CLASS: F.E. - (SEM – I) Assignment 2
SUB: Engineering Mechanics ACADEMIC YEAR: 2024-25

COs Statement POs


1,2,3,4,12
2 Student will be able to Apply concept of free body diagram for static equilibrium in
two-dimension force system

Que. Question Description Marks CO Blooms


No. Level
Q. 1 Determine the reactions at all the point of contacts for a sphere of 5 2 L4
200 N kept in trough.

Fig 1 Fig 2
Q.2 A 1.5 m cable placed around a crate. If the mass of the crate is 300 5 2 L4
kg, determine the tension in the cable.
Q.3 The boom is intended to support two vertical loads, F1 and F2. If the 5 2 L4
cable CB can sustain a maximum load of 1500 N before it fails,
determine the critical loads F1 and F2 if F1=2F2. Also determine the
reaction at A.

Fig 3 Fig4

Q.4 Find support reaction at A and B for beam AB. 5 2 L4

Q.5 Enlist the different types of loads, types of support and types of 5 2 L1
beam?
Q.6 Explain Lami’s Theorem. 5 2 L1
Dr. D. Y. PATIL INSTITUTE OF TECHNOLOGY PIMPRI, PUNE-411 018
DEPARTMENT OF FIRST YEAR ENGINEERING

CLASS: F.E. - (SEM – I) Assignment 2


SUB: Fundamentals of Programming Languages ACADEMIC YEAR: 2024-25
COs Statement POs

CO2 To Use mathematical, Logical Operators and Expressions 1,2,3,4


,11,12

Que. Question Description Marks CO Blooms


No. Level

Q. 1 What are the different arithmetic operators in C? Provide


5 2 L1
examples for each.
Q.2 Write a C program to compare two integers and display whether
5 2 L2
they are equal or not.

Q.3 Explain the difference between the logical AND (&&) and
logical OR (||) operators with examples. What is the result of 5 2 L2
the expression (5 > 3) && (3 < 2)? Explain.
Q.4 What will be the output of the following code snippet?
#include <stdio.h>
int main() {
int x = 5;
5 2 L3
printf("%d\n", x++);
printf("%d\n", ++x);
return 0;
}
Q.5 Explain the difference between operator precedence and
associativity. What is the associativity of the arithmetic 5 2 L2
operators in C?
Q.6 How do you include and use the math library in a C program?
5 2 L2
Explain the use of the sqrt and pow functions with examples.
Dr. D. Y. PATIL INSTITUTE OF TECHNOLOGY PIMPRI, PUNE-411 018
DEPARTMENT OF FIRST YEAR ENGINEERING
CLASS: F.E. - (SEM – I) Assignment 2
SUB: Engineering Chemistry ACADEMIC YEAR: 2024-25

COs Statement POs

The student will be able to select appropriate electro techniques and methods of 1,2,3,12
2 material analysis.

Que. Question Description Marks CO Blooms


No. Level
Q. 1 (a)What is reference electrode? Describe the construction of 5 2 L1 & L3
glass electrode along with diagram and its representation.
(b)Describe the construction of calomel electrode with diagram
and its representation. Give reactions also.
Q.2 What are Ion Selective Electrodes? Explain composition
and working of solid membrane electrode with the help 5 2 L2
of example and labeled diagram.
Q.3 (a) Explain the construction of conductivity cell. Explain the
conductometric titration in case of strong acid and strong base,
with procedure, titration curve and calculations. 5 2 L1 & L3
(b) Explain the applications of the conductometry.

Q.4 (a)Describe the pH metric titration curve of mixture of strong


acid and strong base. Give stepwise process for standardization 5 2 L3
of pH meter. Discuss the applications of pH metric titration.

(b)What is buffer solution? Explain the types with example.


Q.5 State Lambert’s law and Beer’s law. Explain different types of
electronic transitions that occur in an organic molecule after 5 2 L2
absorbing UV radiation.
Q.6 Explain principle, instrumentation and applications of UV-
Visible spectrophotometer. 5 2 L2

Q.7 Explain the following terms with suitable examples


5 2 L1 & L2
i) Chromophore ii) Auxochrome iii) Bathochromic shift
iv) Hypsochromic shift v) Hyperchromic effect
vi) Hypochromic effect
Dr. D. Y. PATIL INSTITUTE OF TECHNOLOGY PIMPRI, PUNE-411 018
DEPARTMENT OF FIRST YEAR ENGINEERING
CLASS: F.E. - (SEM – I) Assignment 2
SUB: Engineering Graphics ACADEMIC YEAR: 2024-25

COs Statement POs

1,3,
2 Apply the types of Projections, Methods to prepare the drawings for planes. 10,12

Que. Question Description Marks CO Blooms


No. Level
Q. 1 Rectangle 30mm and 50mm sides is resting on HP on one small
side, while the surface of the plane makes 45° inclination with 5 2 L2, 3, 4
HP and perpendicular to VP. Draw it’s projections.
Q.2 A square plate ABCD of 50mm side has one of its corner A on
the ground, its diagonal AC inclined at 30° to the HP and the
5 2 L2, 3, 4
diagonal BD inclined at 45° to the VP and parallel to the HP.
Draw its projection
Q.3 A circle of 50 mm diameter is resting on HP on end A of its
diameter AC which is 30° inclined to HP while it’s TV is 45° 5 2 L2, 3, 4
inclined to VP. Draw it’s projections
Q.4 A regular pentagon of 30 mm sides is resting on HP on one of
its sides with its surface 45° inclined to HP. Draw it’s 5 2 L2, 3, 4
projections when the side in HP makes 30° angle with VP
Dr. D. Y. PATIL INSTITUTE OF TECHNOLOGY PIMPRI, PUNE-411 018
DEPARTMENT OF FIRST YEAR ENGINEERING

CLASS: F.E. - (SEM – I) Assignment 2


SUB: Basic Electrical Engineering ACADEMIC YEAR: 2024-25

COs Statement POs

2 Analyze the magnetic circuit parameters, self Inductance, mutual Inductance and Electromotive 1,2,3
Forces (EMF’s). 11,12

Que. Question Description Marks CO Blooms


No. Level
Q. 1 Define the following terms along with its unit: 5 2 L1
1. Magnetic Flux Density
2. Permeability
3. Magnetic Field Strength
Q.2 A coil of 600 turns of resistance of 20 Ω is wound uniformly 5 2 L3
over a steel ring of mean circumference of 30 cm and cross
sectional area of 9 cm2. I t is Connected to a supply of 20 V. If
the relative permeability of a ring is 1600, Find -
1. The Reluctance
2. Magnetic Field Intensity
3. MMF
4. Flux

Q.3 Obtain the expression for coefficient of coupling between 5 2 L2


two Magnetically coupled coils.
Q.4 Derive an expression for Energy stored per unit volume in 5 2 L2
Magnetic field.
Q.5 An air cored Toroid having 25 cm mean diameter and 6.26 cm2 5 2 L3
circular cross sectional area would uniformly with 1000 turns of
wire. Determine:
1) Inductance of toroid
2) emf induced in the coil when current is increasing at
the rate of 200 A/sec.
3) Energy stored in its magnetic field when coil carries
current of 10 A
Q.6 Two coils X and Y, X of 12000 turns and Y of 15000 turns lie 5 2 L3
in parallel planes so that 45% of the flux produced by coil X
links coil Y. a current of 5 A in X produces 0.05mwb, while the
same current in Y produces 0.075 mwb. Calculate:
1) The mutual inductance
2) The coefficient of Coupling
Q.7 Two coils A and B have self-inductance of 10µ𝐻 and 40µH 5 2 L3
respectively. A current of 2A in coil A produces a flux linkage
of 5µWb/turns in coil B. Calculate mutual inductance between
the coils, coefficient of coupling and average EMF induced in
coil A if the current is uniformly reversed in 0.1sec.

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