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| Item Details | Price | ||
|---|---|---|---|
SEM 1 CRASH COURSE 2024 (NEP PATTERN)
| star star star star star | 5.0 (29 ratings) |
Instructor: MathsInDepth
Validity Period: Lifetime
No Description Available
| Engineering Chemistry | |||
| CHEMISTRY MODEL PAPER (2 pages) | |||
| CHEMISTRY PAPER SET (2 pages) | |||
| 🚙Fuels and Combustion🚙 | |||
| Numerical on fuel & combustion (13 pages) | |||
| Introduction to Fuel and Combustion 8:00 | |||
| what is fuel ? claassification of fuel 7:00 | |||
| Characteristics of good fuel 12:00 | |||
| Flash & Fire Point, Coke & Cloud Number, Aniline Point 6:00 | |||
| Concept of calorific value, Gross or Higher calorific value & Net or lower calorific value 16:00 | |||
| Dulong‘s formula & numerical for calculations of Gross and Net calorific values 13:00 | |||
| Solid Fuel & its Types 34:00 | |||
| Solid fuels- Analysis of coal- Proximate Analysis 11:00 | |||
| Ultimate Analysis 38:00 | |||
| Numerical on Coal Analysis 39:00 | |||
| Combustion- Calculations for requirement of only oxygen and air (by weight and by volume only) for given solid & gaseous fuels 49:00 | |||
| ⚓️Corrosion⚓️ | |||
| CORROSION COMPLETE CHAPTER PDF (25 pages) | |||
| Corrosion Live : Part 1 Definition, Mechanism of Corrosion- Dry or Chemical Corrosion-i) Due to oxygen ii)Due to other gases, Wet or Electrochemical corrosion- Mechanism i) Evolution of hydrogen type ii) Absorption of oxygen, Types of Corrosion- Galvanic cell corrosion, Concentration cell corrosion (differential aeration principle) Pitting corrosion, Intergranular corrosion, Corrosion Live : Part 1 Definition, Mechanism of Corrosion- Dry or Chemical Corrosion-i) Due to oxygen ii)Due to other gases,Wet or Electrochemical corrosion- Mechanism i) Evolution of hydrogen type ii) Absorption of oxygen 49:00 | |||
| Anodic & Cathodic Protection(sacrificial Anode & Impressed Current) | |||
| factors affecting the corrosion rate | |||
| 🪝Alloys🪝 | |||
| Phase Rule Numerical (5 pages) | |||
| 🛍Introductio n to Polymers🛍 | |||
| Polymer Numerical (6 pages) | |||
| 🛰Introduction to Composites🛰 | |||
| 🪀Green Chemistry for sustainable development🪀 | |||
| Green Chemistry (17 pages) | |||
| Synthesis of indigo 9:00 | |||
| Synthesis of cabaryl 12:00 | |||
| Synthesis OF Adipic Acid & Benzyl Alcohol 23:00 | |||
| Synthesis of Ibuprofen 11:00 | |||
| Synthesis of Benzimidazole 14:00 | |||
| Biodiesel Concept 13:00 | |||
| Engineering Physics | |||
| Paper sets | |||
| PHYSICS SET 1 (3 pages) | |||
| PHYSICS SET 2 (3 pages) | |||
| ✅SOLUTIONS⤵️ | |||
| 💎QUANTUM PHYSICS💎 | |||
| 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) | |||
| de-Broglie numerical. (2 pages) | |||
| de-Broglie numerical.. (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) | |||
| 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) | |||
| 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) | |||
| 💠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 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) | |||
| 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) | |||
| 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) | |||
| 📀ELECTRODYNAMICS📀 | |||
| Recording - Live 1: Concept of Scalar & Vector Field, Gradient, divergence & Curl 54:00 | |||
| Electrodynamics Complete Notes (19 pages) | |||
| Recording - Curl, Divergence & Gradient Numerical 43:00 | |||
| Complete Electrodynamics 1 shot | Engineering Physics 2 | #mu #sem2 #physics2 55:00 | |||
| Complete Electrodynamics 1 shot | Part 2 | Engineering Physics 2 | #mu #sem2 #physics2 47:00 | |||
| 🛑ONLY READ THOSE PART FROM BELOW PDF WHICH IS IN PAPER SETS | |||
| 📸LASER📸 | |||
| LASER COMPLETE THEORY (18 pages) | |||
| 🚨OPTICAL FIBER🚨 | |||
| OPTICAL FIBRE COMPLETE NOTES (15 pages) | |||
| 💡INTERFERENCE IN THIN FILM🔦 | |||
| interference answers part 1 (6 pages) | |||
| interference answers part 2 (4 pages) | |||
| interference answers part 3 (4 pages) | |||
| QUANTUM PHYSICS PLAYLIST | |||
| SEMICONDUCTOR PLAYLIST | |||
| INTERFERENCE PLAYLIST | |||
| ✅VIDEO LECTURES FOR LASER | |||
| Laser: spontaneous emission and stimulated emission 32:00 | |||
| Einsteins Equations 17:00 | |||
| Population inversion & Types of Pumping 18:00 | |||
| Levels of pumping 6:00 | |||
| Components of a Laser: Active medium. Resonantor Cavity, Pumping source 13:00 | |||
| Helium Neon laser 15:00 | |||
| ✅OPTICAL FIBER LECTURE | |||
| introduction to optical fiber 6:00 | |||
| Concept of total inernal reflection 6:00 | |||
| Angle of acceptance and Numerical Aperture 22:00 | |||
| V number, types of optical fibre, optical fibre communication system | |||
| Recording - Numerical on Optical Fiber | Engineering Physics 2 | #mu #sem 2 31:00 | |||
| Engineering Mechanics | |||
| Basic Electrical & Electronics Engineering | |||
| Engineering Mathematics 1 | |||
| M1 PAPER SET 1 (5 pages) | |||
| M1 PAPER SET 2 (6 pages) | |||
| Maths Sem-1 Formulae (20 pages) | |||
| M1 MODEL PAPER 2024 (2 pages) | |||
| M1 MODEL PAPER TYPE 2 (3 pages) | |||
| Fixed Topics To Pass The Exam (12 pages) | |||
| material given below are for those who want to score 60/60 else u can rely on paper sets | |||
| COMPLEX NUMBER IMPORTANT QUESTIONS (9 pages) | |||
| Hyperbolic Functions Important Questions (9 pages) | |||
| Logarithm of Complex Numbers important questions (4 pages) | |||
| PARTIAL DIFFERENTIATION IMPORTANT QUESTIONS (8 pages) | |||
| HOMOGENEOUS CRASH COURSE (7 pages) | |||
| Maxima and MInima Important Questions (2 pages) | |||
| RANK OF A MATRIX IMPORTANT QUESTIONS (8 pages) | |||
| LINEAR EQUATION IMPORTANT QUESTIONS (5 pages) | |||
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