There are no items in your cart
Add More
Add More
Item Details | Price |
---|
star star star star star | 5.0 (294 ratings) |
Instructor: NIRAJ SINGH
Language: English/Hindi
Enrolled Learners: 7790
Validity Period: 30 days
For any query whatsapp us at 9049091373
SYLLABUS | |||
first-year-engineering-syllabus-of-degree-engineering-sem-i (31 pages) | |||
⚛️ Google Form For Free Mechanics & BEE Video Access | |||
CHEMISTRY | |||
🔥 Launching SEM 2 Online Batch | Chanakya 2.0 | Next Level Content | Mumbai University #sem2 | |||
Phase Rule+polymer updated Numerical (10 pages) | |||
Chemistry Chapterwise Previous Year Questions (1) (12 pages) | |||
Water Chapter Numerical Updated (19 pages) | |||
Chemistry Paper SET 1 (5 pages) | |||
Chemistry Paper SET 2 (5 pages) | |||
CHAPTER 1 (19 pages) | |||
CHAPTER 2 (16 pages) | |||
CHAPTER 3 (24 pages) | |||
CHAPTER 4 (12 pages) | |||
CHAPTER 5 (27 pages) | |||
CHAPTER 6 (24 pages) | |||
BEE Chapter Wise Important | |||
MID BEE 2023 MODEL PAPER (2 pages) | |||
DC Important PART 1 (23 pages) | |||
DC Important PART(2) (22 pages) | |||
Three Phase Circuit Important (10 pages) | |||
AC Important PART (1) (28 pages) | |||
AC Important PART(2) (12 pages) | |||
BEE LAST 2 MODULES THEORY (8 pages) | |||
MID BEE THEORY & DERIVATIONS (4 pages) | |||
MID BEE PAPER SET 1 (7 pages) | |||
MID BEE PAPER SET 2 (7 pages) | |||
MID BEE PAPER SET 3 (6 pages) | |||
BEE | |||
BEE THEORY & DERIVATIONS (5 pages) | |||
BEE LAST THREE CHAPTERS IMPORTANT (1 pages) | |||
ALL PROBLEMS: AC (13 pages) | |||
ALL PROBLEMS: THREE PHASE CIRCUITS (6 pages) | |||
MID- DC & AC CIRCUIT - MU Question paper solutions (79 pages) | |||
MID-Three Phase Circuits- Solutions - MU Question paper (21 pages) | |||
AC Circuits Complete One Shot | Basic Electrical and Electronic Engineering | BEEE | #SEM1 #MU 386:00 | |||
Transformers All Problems (8 pages) | |||
MECHANICS CHAPTERWISE IMPORTANT | |||
🔴All questions in exam will be from these pdfs only | |||
Coplanar Forces Important (7 pages) | |||
Space Forces Important (7 pages) | |||
Centroid Important (6 pages) | |||
Friction Important (10 pages) | |||
Equilibrium Important (10 pages) | |||
Kinemaics of Particle Important (11 pages) | |||
Kinematics of Rigid Body Important (6 pages) | |||
6.1 KINETICS OF PARTICLES (5 pages) | |||
6.2 KINETICS OF PARTICLES (4 pages) | |||
6.3 KINETICS OF PARTICLES (3 pages) | |||
MECHANICS PAPER SET 1 (8 pages) | |||
MID MECHANICS PAPER SET 2 (8 pages) | |||
MID MECHANICS PAPER SET 3 (8 pages) | |||
MECHANICS | |||
MID - Coplanar Forces Previous Years Questions (22 pages) | |||
MID- Space Force Previous Years Questions (25 pages) | |||
MID -Equilibrium Previous Years Questions (29 pages) | |||
MID - Friction Previous Years Questions (24 pages) | |||
MID - Centroid Previous Years Questions (14 pages) | |||
MID - Kinematics of particles Previous Years Questions (42 pages) | |||
MID - Kinematics of rigid body Previous Years Questions (24 pages) | |||
PHYSICS | |||
Semicinductors Important Formulae (3 pages) | |||
Interference in Thin Film Important Formulae (6 pages) | |||
Important Formulae_quantum Physics (4 pages) | |||
QuantumPhysics Theory Questions (4 pages) | |||
Quantum physics All Numerical (4 pages) | |||
SemiConductors Theory Questions (5 pages) | |||
Semicinductors All Numerical (4 pages) | |||
Interference Theory Questions (5 pages) | |||
Interference All Numerical (4 pages) | |||
QUANTUM PHYSICS PLAYLIST | |||
INTERFERENCE PLAYLIST | |||
SEMICONDUCTOR PLAYLIST | |||
MID SET 1 - PHYSICS 1 PAPER (3 pages) | |||
MID SET 2 - PHYSICS 1 PAPER (2 pages) | |||
MID SET 3 - PHYSICS 1 PAPER (2 pages) | |||
🔹PAPER SET SOLUTIONS🔹 | |||
💥QUANTUM MECHANICS💥 | |||
Explain de-Broglie’s hypothesis of matter waves and deduce the expression for λ. (2 pages) | |||
. Why wave nature of De Broglie wave not apparent in daily life (2 pages) | |||
What is the wavelength of a beam of neutron having an energy of 0.025 eV? (1 pages) | |||
For an electron passing through potential difference V. Show that its wavelength is λ=(12.26):√V A^o (1 pages) | |||
Find the de-Broglie wavelength of 1) An electron accelerated through a potential difference of 182 volts & 2) 1kg object moving with a speed of 1 m/s. Comparing the result , explain why is the wave nature of matter not apparent in daily observation. (2 pages) | |||
An electron & photon each have wavelength of 2𝑨°. What are their momentum and energy? m=𝟏.𝟔𝟕𝟔∗𝟏𝟎−𝟐𝟕 kg , h=𝟔.𝟔𝟐𝟓∗𝟏𝟎−𝟑𝟒 J-sec . (2 pages) | |||
Calculate the velocity & de-Broglie wavelength of alpha particles of energy 1 KeV. Given mass of Alpha particle is 𝟔.𝟔𝟖∗𝟏𝟎−𝟐𝟕 Kg (1 pages) | |||
What is de-Broglie wavelength of an electron accelerated through potential difference of 100 V? (1 pages) | |||
With Heisenberg uncertainty principal Show that electron cannot survive (cannot pre-exist in Free State) in a nucleus (1 pages) | |||
An electron is bound in a one dimensional potential well of width 2𝑨°, but of infinite height. Find its energy values in the ground state, first & second excited state. (1 pages) | |||
The position and momentum of 0.5 KeV electron are simultaneously determined. If its position is located within 0.2 nm what is the percentage uncertainty in its momentum? (1 pages) | |||
Find the accuracy in the position of an electron moving with speed 350 m/sec with uncertainty of 0.01 %. And electron has a speed of 400 m/s with uncertainty of 0.01 %. Find the accuracy in its position. (2 pages) | |||
What is wave function of matter wave? Write physical significance of wave function. (2 pages) | |||
Obtain one dimensional time dependent Schrodinger equation. (2 pages) | |||
Derivation for One Dimensional Schrodinger Time independent Equation . (1 pages) | |||
What do you mean by particle in a box? What are its boundary conditions? (1 pages) | |||
Derive the expression for energy Eigen values for free particle in one dimensional potential well. (2 pages) | |||
An electron is confined in a box of dimension 1𝑨°. Calculate minimum uncertainty in its velocity. (1 pages) | |||
🔋SUPER CONDUCTOR & CAPACITORS🔋 | |||
Compare supercapacitors and batteries (2 pages) | |||
Explain - Why Superconductor is perfect diamagnetic? (2 pages) | |||
What are supercapacitors Explain working principle. (5 pages) | |||
Explain Type 1 and Type 2 Superconductor. (3 pages) | |||
critical field numerical (2 pages) | |||
Explain the Meissner Effect with application. (3 pages) | |||
Explain significance of critical temperature in a superconductor. (2 pages) | |||
Define super conductivity & explain critical magnetic field. (2 pages) | |||
ENGINEERING MATERIALS | |||
Short note on LCD (different liquid phases) (3 pages) | |||
What is magneto resistance Explain CMR & GMR Materials (3 pages) | |||
Explain Type 1& 2 multiferroics (4 pages) | |||
💥SEMICONDUCTOR💥 | |||
In a solid, consider the energy level lying 0.012 eV below fermi level. What is the probability of this level not Being occupied by an electron? (1 pages) | |||
In a hall effect experiment a potential difference of 4.5 μV is developed across a foil of zinc of thickness 0.02 mm , when a current of 1.5 A is carrying in a direction perpendicular to applied magnetic field of 2 tesla . Calculate a. Hall coefficient of zinc b. Concentration of electrons (1 pages) | |||
In an n type semi-conductor the fermi level lies 0.4 eV below the conduction band. If the concentration of donor atom is doubled, find the new position of fermi level w.r.t the conduction band. (1 pages) | |||
calculate the mobility of electrons in Cu (1 pages) | |||
What is the probability of an electron being thermally excited to the conduction band in Si at 30 degree? The Band gap energy is 1.12 eV. (1 pages) | |||
Calculate its intrinsic carrier density. (1 pages) | |||
With energy band diagram, explain the variation of fermi energy level with impurity concentration in extrinsic Semiconductor. (2 pages) | |||
Distinguish between Direct and Indirect band gap. (1 pages) | |||
Explain the concept of fermi energy & fermi level. (1 pages) | |||
Write the fermi Dirac distribution functions & terms in it. (1 pages) | |||
Explain Hall Effect in metal? Derive the formulae to determine the density & mobility of the electrons. (3 pages) | |||
What is Hall Effect? Derive an expression for Hall voltage. How can mobility be determined by using Hall Effect? (3 pages) | |||
Show that the Fermi energy level lies at the center of the band gap in intrinsic semiconductors. (2 pages) | |||
Define drift current, diffusion current, mobility of charge carriers. (1 pages) | |||
1) What is the probability of an electron being thermally promoted to conduction band. 2) In a hall effect experiment a potential difference of 4.5 μV is developed across a foil of zinc of thickness 0.02 mm , when a current of 1.5 A is carrying in a direction perpendicular to applied magnetic field of 2 tesla . Calculate a. Hall coefficient of zinc b. Concentration of electrons (2 pages) | |||
🏳️🌈Interference In Thin Film🏳️🌈 | |||
model paper1 interference answers (4 pages) | |||
model paper2 interference answers (6 pages) | |||
model paper3 interference answers (4 pages) | |||
M1 STRATEGY VIDEOS | |||
Engineering Mathematics Crash Course | Mumbai University Free Crash Course #sem1 #mu #semester1 2:00 | |||
RANK OF A MATRIX | CRASH COURSE | ENGINEERING MATHEMATICS 1 | MUMBAI UNIVERSITY #SEM1 #FE #MU #M1 13:00 | |||
Linear Equations | Crash Course | Engineering Mathematics 1 | Mumbai University #mu #sem1 #m1 #exam 14:00 | |||
Homogeneous Functions | Crash Course | Engineering Mathematics 1 | Mumbai University #mu #sem1 #m1 24:00 | |||
Complex Number | Crash Course | Engineering Mathematics 1 | Mumbai University #mu #sem1 #m1 34:00 | |||
🔴 PARTIAL DIFFERENTIATION PART 1: 5+6+6 Marks | |||
🔴 PARTIAL DIFFERENTIATION PART 2: 8 Mraks 127:00 | |||
🔴 maxima-minima 1 shot 124:00 | |||
M1 CHAPTER-WISE IMPORTANT QUESTIONS | |||
Fixed Topics To Pass The Exam (11 pages) | |||
Maths Sem-1 Formulae (21 pages) | |||
MODULE 1 | |||
COMPLEX NUMBERS_CRASH (18 pages) | |||
MODULE 2 | |||
HYPERBOLIC FUNCTION_CRASH (10 pages) | |||
LOG OF CN_CRASH (5 pages) | |||
MODULE 3 | |||
PARTIAL DERIVATIVE_Crash (9 pages) | |||
HOMOGENEOUS_crash (7 pages) | |||
MODULE 4 | |||
MAXIMA-MINIMA_CRASH (3 pages) | |||
SUCCESSIVE DIFFERENTIATION_CRASH (8 pages) | |||
MODULE 5 | |||
RANK OF A MATRIX_crash (11 pages) | |||
LINEAR EQUATION_crash (5 pages) | |||
PAPER SET 1 SOLUTION (44 pages) | |||
PAPER SET 2 SOLUTIONS (50 pages) | |||
MID M1 PAPER SET 2 (5 pages) | |||
MID M1 PAPER SET 1 (6 pages) | |||
WEBINAR |
After successful purchase, this item would be added to your courses.
You can access your courses in the following ways :