S.NO |
Year |
Semester |
Video Title |
View |
1 |
III Year |
VI Semester |
K-map simplification and Excitation table for T Flip-Flop |
|
2 |
III Year |
VI Semester |
K-map Simplification and Excitation table for D Flip-Flop |
|
3 |
III Year |
VI Semester |
K map simplification and Excitation table for JK Flip Flop |
|
4 |
III Year |
VI Semester |
K-map simplification and excitation table for RS Flip-Flop |
|
5 |
III Year |
VI Semester |
T Flip Flop | Construction and Working Operation |
|
6 |
III Year |
VI Semester |
D Flip-Flop | Construction and Working operation |
|
7 |
III Year |
VI Semester |
Master-Slave JK Flip-Flop |
|
8 |
III Year |
VI Semester |
JK Flip-Flop |
|
9 |
III Year |
VI Semester |
Clocked SR Flip-Flop |
|
10 |
III Year |
VI Semester |
SR-Latch using NAND gates | Flip-flops |
|
11 |
III Year |
VI Semester |
Flip-Flops | SR Latch using NOR gates | English to Telugu |
|
12 |
III Year |
VI Semester |
CMRR(Cmommon Mode Rejection Ratio) and Slewrate |
|
13 |
III Year |
VI Semester |
Circuit symbol of Op-Amp |
|
14 |
III Year |
VI Semester |
Block diagram of Op-Amp |
|
15 |
III Year |
VI Semester |
Operational Amplifier | Introduction to Op-Amp |
|
16 |
III Year |
VI Semester |
FET | JFET - Construction & Working |
|
17 |
III Year |
VI Semester |
MOSFET | Enhancement type MOSFET - Construction & Working |
|
18 |
I Year |
I Semester |
Production of Ultrasonic waves by Magnetostriction method |
|
19 |
I Year |
I Semester |
Production of Ultrasonic waves by Piezo-Electric Method |
|
20 |
III Year |
VI Semester |
Introduction to FET | JFET - Construction & Working |
|
21 |
III Year |
VI Semester |
MOSFET | Enhancement type MOSFET - Construction & Working |
|
22 |
III Year |
VI Semester |
MOSFET | Depletion MOSFET - Construction & Working |
|
23 |
I Year |
I Semester |
Length Contraction and Time Dilation |
|
24 |
I Year |
I Semester |
Energy - Mass Relation | E= mc^2 |
|
25 |
I Year |
I Semester |
Lorentz Transformations |
|
26 |
I Year |
I Semester |
Postulates of Special Theory of Relativity |
|
27 |
I Year |
I Semester |
Galilean Transformations |
|
28 |
I Year |
I Semester |
What is Relativity? |
|
29 |
I Year |
I Semester |
Gyroscope |
|
30 |
I Year |
I Semester |
Motion of Satellites |
|
31 |
I Year |
I Semester |
Kepler's 2 &3 Laws - Derivation |
|
32 |
I Year |
I Semester |
Kepler's 1st Law - Derivation |
|
33 |
I Year |
I Semester |
Kepler's Laws of Planetary Motion |
|
34 |
I Year |
I Semester |
Equation of Motion of under a Central Force |
|
35 |
I Year |
I Semester |
What is Rigid Body? | English to Telugu | B.Sc 1st semester. |
|
36 |
I Year |
I Semester |
Interesting facts about Sir. C.V. Raman | సర్ సి.వి.రామన్ ను గురించిన కొన్ని ఆసక్తికరమైన విషయాలు |
|
37 |
I Year |
I Semester |
Rutherford's Scattering | English to Telugu | B.Sc 1st Semester. |
|
38 |
I Year |
I Semester |
Impact Parameter and Scattering Cross-Section | English to Telugu| B.Sc 1st semester. |
|
39 |
I Year |
I Semester |
Motion of a Rocket | English to Telugu | B.Sc 1st Semester |
|
40 |
I Year |
I Semester |
System of Variable Mass | English to Telugu | B.Sc 1st Semester |
|
41 |
III Year |
VI Semester |
Introduction to FET, JFET Working and it's I-V Characteristics |
|
42 |
III Year |
VI Semester |
Transistors- Bipolar Junction Transistors Working |
|
43 |
III Year |
V Semester |
Magnetic field due to a long straight Conductor(wire) carrying Current |
|
44 |
III Year |
V Semester |
Biot - Savart Law | Explanation & Derivation |
|
45 |
III Year |
V Semester |
Electric Dipole Moment | Polarization & Polarizability | Short Note |
|
46 |
III Year |
V Semester |
Electric field intensity due to a Uniformly Charged Sphere(Non-Conducting) |
|
47 |
III Year |
V Semester |
Gauss's Law | Statement & it's Proof |
|
48 |
I Year |
I Semester |
Theory of Relativity |
|
49 |
I Year |
I Semester |
Elastic Constant & Their Relations |
|
50 |
I Year |
I Semester |
CENTRAL FORCE AND ITS CHARACTERISTIC |
|
51 |
I Year |
II Semester |
Compound pendulum |
|
52 |
I Year |
II Semester |
Torsional Pendulum Laq |
|
53 |
I Year |
II Semester |
Simple Harmonic Oscillator and the solution of DifferentialEquation |
|
54 |
I Year |
I Semester |
Vector Analasys |
|
55 |
I Year |
I Semester |
Explore Gradient with Examples |
|
56 |
I Year |
I Semester |
Dot & Cross Product with Examples |
|
57 |
I Year |
I Semester |
Vector Differentiation - Vector Analysis |
|
58 |
I Year |
I Semester |
Vector in Plane and Space - Vector Analysis |
|
59 |
I Year |
I Semester |
Vector Operations with Examples |
|
60 |
I Year |
I Semester |
Gravitation Keplers 3rd Law |
|
61 |
I Year |
I Semester |
Elastic Constant & Their Relations |
|
62 |
I Year |
I Semester |
PROOF OF KEPLER'S FIRST LAW |
|
63 |
I Year |
I Semester |
Gravitation Keplers 2nd Law |
|
64 |
I Year |
I Semester |
Central force field |
|
65 |
I Year |
I Semester |
CENTRAL FORCE AND ITS CHARACTERISTICS |
|
66 |
I Year |
I Semester |
Central Force Motion |
|
67 |
II Year |
III Semester |
Polarisation by scattering An activity |
|
68 |
II Year |
III Semester |
Brewsters Law | Angle of Polarization and the Refractive Index Relation |
|
69 |
II Year |
III Semester |
Pile of Plates | Phenomenon of Polarisation by Reflection |
|
70 |
II Year |
III Semester |
Polarisation by Reflection |
|
71 |
II Year |
III Semester |
T-SAT || Physics - Circularly and Elliptically Polarized Light |
|
72 |
II Year |
III Semester |
polarimeter and optical activity I dextro & laevo I meso I racemic mixture I |
|
73 |
II Year |
III Semester |
Quarter and Half wave plate |
|
74 |
II Year |
III Semester |
EM waves - Polarization |
|
75 |
II Year |
III Semester |
EM waves - Brewster's law |
|
76 |
II Year |
III Semester |
Malus law, with proof, explanation, animation, polarisation, polariser, analyser |
|
77 |
II Year |
III Semester |
William Nicol's Nicol Prism |
|
78 |
II Year |
III Semester |
Nicol Prism HD |
|
79 |
II Year |
III Semester |
optical fiber construction and working |
|
80 |
III Year |
V Semester |
HALL EFFECT |
|
81 |
III Year |
V Semester |
schrodinger wave equation derivation time independent |
|
82 |
III Year |
V Semester |
radioactivity |
|
83 |
II Year |
III Semester |
newton rings - interference |
|
84 |
I Year |
I Semester |
Kepler Laws and Coriolis Force |
|
85 |
I Year |
II Semester |
గాస్ నియమం అనువర్తనాలు మరియు యానకరోదకంలో గాస్ నియమం |
|
86 |
III Year |
V Semester |
Alpha and Beta Decay |
|
87 |
II Year |
IV Semester |
Thermodynamics |
|
88 |
III Year |
V Semester |
III Year V Sem |
|
89 |
III Year |
V Semester |
Maxwel's Equations |
|
90 |
III Year |
V Semester |
Feming's Right Hand Rule |
|
91 |
III Year |
V Semester |
Nuclear Models |
|
92 |
III Year |
V Semester |
Nuclear Physics |
|
93 |
III Year |
V Semester |
Raman Effect |
|
94 |
II Year |
III Semester |
Lasers |
|
95 |
III Year |
V Semester |
Biot-Savart's Law |
|
96 |
III Year |
V Semester |
Polarization |
|
97 |
II Year |
IV Semester |
Low temperature Physics |
|
98 |
I Year |
II Semester |
Simple Harmonic Motion |
|
99 |
II Year |
IV Semester |
Thermodynamics |
|
100 |
I Year |
II Semester |
Vibrating Strings |
|
101 |
II Year |
III Semester |
Chromatic Aberration |
|
102 |
II Year |
III Semester |
Introduction and Principals of Optic Fiber |
|
103 |
II Year |
III Semester |
Diffraction of lite |
|
104 |
I Year |
I Semester |
B.Sc 1st Year |
|
105 |
III Year |
V Semester |
Introduction to semi conductors |
|
106 |
III Year |
V Semester |
Uniformly charged spherical conductor & electric dipole |