Hydrology

Hydrology Bachelor of Engineering(BE) videos According to syllabus of Institute of Engineering(IoE), Tribhuvan University (TU)

Intermediate 0 (0 Review ) 0 Students enrolled
Created by Mero School Last updated Thu, 25-Nov-2021 Nepali
What will I learn?
  • After the completion of this course students will get the complete knowledge of Hydrology.

Curriculum for this course
164 Lessons 30:17:47 H:M:S
1. Marks Distribution
1 Lessons 00:02:31 Hours
  • Course Introduction 00:02:31 Free
  • 1. DEFINITION AND USES 00:08:52 Free
  • 2. Hydrologic Cycle 00:15:20 Free
  • 3. Water Balance Equation and Global water balance 00:12:36
  • 4. Numerical 1 00:06:04
  • 5. Numerical 2 00:12:04
  • 6. Development of Hydro Metereological study in Nepal 00:04:36
  • 1. Defintion, causes, forms and types of precipitation 00:20:55
  • 2. Measurement of precipitation 00:12:19
  • 3. Raingauge network 00:07:39
  • 4. Estimation of missing rainfall data 00:05:14
  • 5. Numerical 1 (estimation of rainfall data) 00:04:35
  • 6. Numerical 2 (estimation of rainfall data) 00:04:43
  • 7. Snowfall measurement 00:09:37
  • 8.Test for inconsistencies of rainfall data 00:10:00
  • 9. Numerical ( Test for inconsistencies of rainfall data) 00:16:02
  • 10. Presentation of rainfall data 00:18:58
  • 11. estimation of mean rainfall 00:11:40
  • 12. numerical( iso hyetal method) 00:05:27
  • 13. Numerical ( Thiessen polygon) 00:12:06
  • 14. IDF curve 00:04:17
  • 15. Numerical ( IDF curve) 00:18:52
  • 16. DAD curve 00:06:55
  • 17. Numerical ( DAD curve) 00:09:01
  • 1. Initial losses 00:11:53
  • 2. Evaporation process 00:16:06
  • 3. Estimation of Evaporation 00:16:54
  • 4. Evaporimeter 00:09:05
  • 5. Evaporimeter( numerical) 00:04:19
  • 6. Empirical Methods for estimation of Evaporation 00:04:01
  • 7. Evapotranspiration 00:08:55
  • 8. Potential Evapotranspiration measurement by Penmann's Equation 00:05:35
  • 9. Numerical on PET 00:12:45
  • 10. Measurement of Actual Evapotranspiration 00:05:00
  • 11. Horton's equation 00:04:41
  • 12. Infiltrometers 00:10:28
  • 13. Infiltration indices 00:07:18
  • 14. Numerical ( Infiltration indices) 00:07:10
  • 15. Numerical ( Horton equation ) 00:04:31
  • 16. Numerical ( Infiltration ) 00:13:30
  • 17. Numerical ( Infiltration) 00:13:00
  • 1. Drainage basin and its quantitative characteristics 00:22:03
  • 2. Factors affecting runoff from a catchment 00:08:39
  • 3. Rainfall runoff relationship 00:04:17
  • 4. Stream gauging 00:13:27
  • 5. Stream flow measurement by area velocity method 00:06:06
  • 6. Velocity measurement using current meter and float 00:13:25
  • 7. Moving boat method 00:05:59
  • 8. Dilution technique for stream flow measurement 00:16:41
  • 9. Ultrasonic method and Electromagnetic method 00:07:38
  • 10. Stream flow computation by Slope Area Method 00:15:30
  • 11. Numerical ( Slope area method) 00:17:06
  • 12. Numerical ( Slope Area Method) 00:23:47
  • 13. Development of Rating Curve 00:15:10
  • 14. Determination of stage corresponding to zero discharge 00:12:16
  • 15. Numerical ( Rating curve) 00:09:37
  • 16. Numerical ( Rating curve) 00:25:44
  • 17. Estimation of monthly flows from rainfall 00:18:08
  • 18. Numerical ( Velocity Area Method) 00:11:15
  • 19. Numerical1 ( Velocity Area Method) 00:11:49
  • 1.Component of hydrograph 00:17:33
  • 2. Separation of baseflow 00:11:49
  • 3. Numerical (DRH) 00:07:15
  • 4. Numerical (Hyetograph) 00:10:35
  • 5. Unit hydrograph, their uses and limitations 00:13:35
  • 6. Numerical (Unit Hydrograph) 00:11:59
  • 7. Numerical 00:08:20
  • 8. Derivation of unit hydrograph due to isolated storm 00:11:12
  • 9. Derivation of unit hydrograph due to complex storm 00:04:44
  • 10. Numerical ( Complex storm) 00:15:21
  • 11. Numericals related to conversion of UH into flood hydrograph 00:09:33
  • 12. Derivation of unit hydrograph of different duration using superpositon method 00:12:27
  • 13. Derivation of unit hydrograph of different duration using S-curve method 00:07:24
  • 14. S curve numerical 00:06:05
  • 15. Numerical on S curve 00:17:25
  • 16. Numerical( unit hydrograph) 00:09:45
  • 17. Numerical 00:17:52
  • 18. Numerical 00:28:47
  • 1. Design flood 00:08:00
  • 2. Statistical methods of flood prediction_1 00:11:25
  • 3. Return period, frequency and risk 00:08:23
  • 4. Numerical ( probability of exceedence ) 00:04:36
  • 5. Frequency Analysis 00:08:06
  • 6. Numerical 00:04:43
  • 7. Gumbel's method 00:18:09
  • 8. Gumbel probability paper 00:15:37
  • 9. Numerical 00:11:40
  • 10. Numerical 00:22:16
  • 11. Numerical 00:11:49
  • 12. Numerical 00:09:02
  • 13. Numerical 00:18:46
  • 14. Log Pearson method and Log Normal method 00:09:29
  • 15. Numerical 00:25:43
  • 16. Rational method for flood prediction 00:18:43
  • 17. Numerical (Rational method) 00:07:28
  • 18. Numerical ( rational method) 00:10:06
  • 19. Empirical method for flood prediction 00:15:45
  • 20. Numerical ( Empirical method) 00:04:49
  • 1. Flood routing 00:12:41
  • 2. Types of flood routing 00:12:54
  • 3. Hydrologic Channel routing 00:14:54
  • 4. Numerical ( Muskingum method) 00:10:22
  • 5. Clark's method 00:12:14
  • 6. Numerical ( Clark's method) 00:09:56
  • 2075 Ashwin
    • 1. Q. No. 1.a 00:06:38
    • 2. Q. No. 1.b 00:03:45
    • 3. Q. No. 1.c 00:14:15
    • 4. Q. No. 2.a 00:07:01
    • 5. Q. No. 2.b 00:12:00
    • 6. Q.No. 3.a 00:13:25
    • 7. Q. No. 3.b 00:25:22
    • 8. Q.No. 4.a 00:04:43
    • 9. Q. No. 4.b 00:00:36
    • 10. Q. No. 4.c 00:09:48
    • 11. Q. No. 5.a. and 5.b 00:06:15
    • 12. Q. No. 5.c 00:10:53
    2075 Chaitra
    • 1. Q. No. 1 00:05:46
    • 2. Q. No.2 00:10:13
    • 3. Q. No. 3.a 00:12:10
    • 4. Q. No. 3.b 00:15:37
    • 5. Q. No. 3.c 00:03:12
    • 6. Q. No. 4.a 00:20:14
    • 7. Q. No. 4.b 00:10:04
    • 8 . Q. No. 5.a 00:09:46
    • 9. Q. No. 5.b 00:14:12
    • 11. Q. No. 6.a 00:09:19
    • 12. Q. No. 6.b 00:11:41
    • 13. Q. No. 7.a. and 7.b 00:13:15
    2076 Ashwin
    • 1. Q. No1. a and b 00:07:32
    • 2. Q. No. 2 00:08:21
    • 3. Q. No 3.a 00:11:33
    • 4. Q. No. 3.b 00:12:13
    • 5. Q. No. 4. a and c 00:10:05
    • 6. Q. No. 4.b 00:11:29
    • 7. Q. No. 5. a 00:03:46
    • 8. Q. No. 5.b 00:10:46
    • 9. Q. No. 6.a 00:10:45
    • 10. Q. No. 6.b 00:00:36
    • 11. Q. No. 7 00:10:06
    2076 Chaitra
    • 1. Q.No. 1 00:12:44
    • 2. Q.No. 2 00:07:29
    • 3. Q. No. 3 00:07:56
    • 4. Q. No. 4 00:06:03
    • 5. Q. No. 5 00:14:38
    • 6. Q.No. 6 00:08:58
    • 7. Q. No. 7 00:14:21
    • 8. Q. No. 8 00:22:37
    • 9. Q. No.9 00:30:46
    • 10. Q. No.10 00:13:05
    2078 Bhadra
    • 1. Q. No. 1 00:04:04
    • 2. Q. No. 2.a 00:05:32
    • 3. Q. No. 2.b 00:04:16
    • 4. Q. No. 3.a 00:08:20
    • 5. Q. No. 3.b 00:07:52
    • 6. Q. No. 4.a 00:15:34
    • 7. Q. No. 4.b 00:06:53
    • 8. Q. No. 5.a 00:03:31
    • 9. Q. No. 5.b 00:10:14
    • 10. Q. No. 6.a 00:13:10
    • 11. Q. No. 6.b 00:04:45
    • 12. Q. No. 7.a 00:06:19
    • 13. Q. No. 7.b 00:13:23
    Requirements
    • "Students are required to have basic knowledge of Hydrology, based on syllabus of IoE "
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    Description

    The videos herein are strictly based on syllabus of Institute of Engineering Tribhuvan University, Nepal promoting "e-Learning in Nepal" and are made with intention to provide guidance to the "Bachelor in Engineering(BE) appearing students", for securing good results. The course tries to cover all the courses of Hydrology. This course tries to cover all the questions with solution of most frequently asked questions in final exam of BE with theories and numerical. We strongly believe that, viewers will be benefited from these videos and the thirst of curiosity of viewers will be quenched! Feedbacks and suggestion to improve are always welcome and highly appreciated!

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