09:54

|| C20 REGULATION 5th semester ECE (EC-505) Computer Hardware and Networking Important questions ||

11:33

|AP DIPLOMA C23 REGULATION 3RD SEMESTER (EC - 306) Programming in C &MATLAB || Important questions|

12:13

|| Show that integral 0 to π x.sinx / 1+sinx .dx = π^2/2-π || in Telugu || definite integrals || M2|

16:15

|| AP Diploma C23 Regulation 3rd semester ECE (EC-305) Network Analysis Subject Important questions|

07:43

|| Evaluate integral 0 to π/2 (a sinx+b cosx)/ (sinx+cosx).dx || in Telugu || definite integrals| M2

07:34

|| Find integral π/6 to π/3 √sinx / √sinx+√cosx.dx || in Telugu || definite integrals || M2 || inter

11:03

|| Evaluate integral 0 to π/2 dx/4+5cosx ||in Telugu || definite integrals || M2 || inter maths 2B||

13:33

| Evaluate integral 2 to 3 2x/1+x^2.dx | integral 0 to 2 √4-x^2.dx | integral 0 to π √2(1+cos theta)

05:10

| Evaluate integral 0 to π/2 (sin^2x - cos^2x)/(sin^3x+cos^3x).dx ||in Telugu || M2 | Inter maths 2B

06:45

| Evaluate integral 0 to π/4 log(1+tanx).dx | in Telugu || definite integrals || M2 | inter maths 2B

08:41

| Evaluate integral -π/2 to π/2 cos x/ 1+e^x .dx || in Telugu || definite integrals | M2 || inter 2B

09:26

|| Evaluate integral (0 to π) x/1+sinx.dx ||in Telugu || definite integrals || M2 || Inter maths 2B|

12:54

| Indefinite integral problems in Telugu| Engineering mathematics 2 | inter mathematics || diploma |

10:16

|| Indefinite integral problems || in Telugu || engineering mathematics 2 || inter mathematics ||

08:06

| Evaluate Integral x^8/1+x^18.dx || Integral 2x^3/1+x^8 .dx || in Telugu | Engineering mathematics|

11:54

|| Evaluate integral e^x/e^x+1.dx || Integral dx/(x+3)√x+2 || Integral dx/(x+5)√x+4 || in Telugu ||

04:30

|| Evaluate integral (x+1/x)^3.dx || in Telugu || Indefinite integral || inter mathematics || M2 ||

06:11

|| Decimal to Binary Conversion in Telugu || digital electronics || STLD || diploma || engineering |

07:42

|| Binary to Decimal Conversion in Telugu || digital electronics || STLD || diploma | engineering ||

10:17

|| BCD (Binary Coded Decimal ) Subtraction || in Telugu || Digital electronics || STLD || diploma ||

10:08

|| BCD (Binary Coded Decimal ) addition rules with examples in Telugu || Digital electronics | STLD|

08:24

| Binary and BCD Representation of decimal numbers 0 to 15 | in Telugu | Digital electronics| STLD |

03:43

|| Gray to Binary Conversion || in Telugu || digital electronics || STLD || diploma || Engineering |

20:59

| Subtraction using 1's complement and 2's complement with examples in Telugu | digital electronics

12:08

|| Methods of 1's Complement and 2's Complement || in Telugu || Digital Electronics || STLD || ECE |

17:28

| Binary Arithmetic Operations || addittion | subtraction || multiplication || division || in Telugu

07:08

|| Realize AND, OR, NOT operations using NOR gate || The NOR gate as a universal gate || in Telugu |

09:06

|| Realize (implementation) AND, OR, NOT operations using NAND gate || NAND gate as a universal gate

06:45

|| sin ^-x+sin^-y+sin^-z = π , then prove that x√1-x^2 + y√1-y^2 +z√1-z^2 = 2xyz || in Telugu | M1||

07:11

|| If cos^-p + cos^-q+ cos^-r = π, then prove that p^2 + q^2 + r^2 + 2pqr = 1 || in Telugu || M1 ||

06:14

| Prove that cos[Tan^-1 {sin (cot^-x)}] = √x^2+1/x^2+2 | in Telugu | Inverse trigonometric functions

12:59

|| Prove that sin^-1 3/5+sin^-1 8/17 = cos^-1 36/85 || in Telugu || M1 || Inter mathematics| diploma

03:48

|| Find the value of tan [ cos^-1 4/5+tan^-1 2/3] in Telugu || Inverse trigonometric functions || M1

09:58

|| Prove that sin inverse 4/5+Sin inverse 5/13+sin inverse 16/65 = π/2 || in Telugu |M1| inter maths

11:28

|| Instruction set of 8051 Microcontroller one mark question & answers || in Telugu || diploma ||

05:22

|| Prove that Tan inverse 3/4+Tan inverse 3/5-Tan inverse 8/19 = π/4 || in Telugu || M1 inter maths

05:24

| Prove that Tan inverse 1/2+Tan inverse 1/5+Tan inverse 1/8 = π/4 |in Telugu| Inverse trigonometry

04:22

|| Prove that sin inverse 4/5 + 2 tan inverse 1/3 = π/2 || in Telugu || engineering mathematics 1 ||

18:57

|| Obtain the delta equivalent circuit for the circuit shown in figure || Star to Delta conversion |

05:34

| If tan inverse of x+ tan inverse of y+tan inverse of z = π , then prove that x+y+z = xyz in Telugu

09:41

|| Obtain the star connection of three impedances equivalent to the network CDE shown in figure ||

04:34

||Prove that Sin [cot inverse 2x/1-x^2 + cos inverse [1-x^2/1+x^2]] = 1 ||in Telugu | diploma || M1|

16:22

|| Obtain the delta connected equivalent circuit for the given network || in Telugu || star to delta

03:35

| Show that sec^2[tan inverse 2] + cosec^2 [ cot inverse 2] = 0 || in Telugu | Inverse trigonometry|

07:56

|| Find the current through 2 ohm resistor using thevenin's theorem || in Telugu | network analysis

04:56

|| Show that tan theta+sec theta -1 / tan theta - sec theta+1 = 1+sin theta/ cos theta ||in Telugu |

06:08

|| Prove that sin 20°.sin 40°.sin 60°.sin 80° = 3/16. || cos π/9.cos 2π/9.cos 3π/9.cos 4π/9 = 1/16.

15:18

|| Architecture of 8051 Microcontroller || Bits || AP ECET || diploma || ECE ||Suma study centre ||

06:37

|| What is Opcode (Operational Code ) and Operand || in Telugu || 8051 microcontroller || diploma ||

14:07

|| Problem on Partial fractions || in Telugu || for inter and diploma students || Mathematics ||

11:19

|| Find the current through 39 ohm resistor by using super position theorem ||in Telugu || NA ||

09:33

|| Find the current flowing through the 3 ohm resistor using super position theorem || in Telugu ||

07:55

|| Evaluate integral 1/ 1+sinx+cosx .dx ||in Telugu || indefinite integration || diploma || inter ||

10:49

|| Write the mesh current equations for the given network and determine the currents I1, I2 & I3 ||

10:47

|| Find integral dx / 3 cosx+4 sinx+6 || in Telugu || indefinite integration || M2 || inter maths ||

16:03

|| Write the mesh current equations for 4 loop network and arrange them in Matrix form || in Telugu|

11:17

|| Maximum Power Transfer Theorem problems || in Telugu || network analysis ||diploma || ECE ||

22:29

|| Maximum Power Transfer Theorem for A.C Circuits (A.C. Networks ) in Telugu || Network Analysis ||

12:26

|| Solve x^2y.dx -(x^3+y^3)dy = 0 || in Telugu | Non exact differential equations || diploma | M2 ||

09:57

|| Maximum power transfer theorem for DC circuits || in Telugu || Network Analysis | diploma || ECE|