**GATE 2021: Civil Engineering**

This is a comprehensive course for GATE 2020/2021 – Civil Engineering which will cover the Technical and Non-Technical Parts of the GATE syllabus. It is Suitable for Aspirants Preparing for GATE, ESE, and PSUs Examinations.

**Exam Covered:** Graduate Aptitude Test in Engineering

**Validity:** Till GATE 2021 Exam.

**Study Materials :** Theory and Objective Books of Technical Subjects , GATE Previous Year Solved Papers , DPP Booklets , Guide for Engineering Mathematics Book , General Aptitude & Reasoning Book .

**Total Online Tests - 60 **

Part Test -20 , Subject Test – 10 , Cascaded Test-5 , Full Syllabus Test -15 and Mock Test -10

For more online tests, visit website....** ****www.onlineengineersacademy.org**

So don’t miss the live classes and avail initial **25% discount.**

**Coupon Code - GATECIV25**

1 # Basic concept of fluid mechanics |
01:04:09 |

2 # Numerical and concept of viscosity |
00:41:07 |

3 # Numerical of viscosity and concept of non-Newtonian fluid |
00:58:09 |

4 # Surface tension and capillarity |
01:40:40 |

5 # Pressure Measurement |
01:35:37 |

6 # Differential manometer and numerical on pressure measurement |
01:58:07 |

7 # Hydrostatic force |
01:26:37 |

8 # Buoyancy and floatation |
01:32:45 |

9 # Kinematics (up to continuity equation) |
01:48:34 |

10 # Velocity potential and stream function |
01:22:42 |

11 # Numerical |
01:58:59 |

12 # Fluid dynamics |
02:36:31 |

13 # Numerical |
02:46:30 |

14 # Combined numerical |
03:00:44 |

15 # Notch and Weir |
00:51:33 |

16 # Laminar Flow |
02:22:58 |

17 # Numerical |
02:51:55 |

18 # Flow through pipe |
02:48:15 |

19 # Boundary layer theory |
02:39:24 |

20 # Turbulent Flow |
01:15:46 |

21 # HYDRAULIC MACHINE , Impact of Jet |
02:31:42 |

22 # Numerical |
02:59:12 |

23 # Hydraulic Turbine |
04:01:21 |

24 # Numerical |
02:04:27 |

25 # Specific speed and unit speed |
02:48:39 |

26 # Pump |
02:34:25 |

27 # Numerical |
03:30:08 |

1 # Engineering Mathematics |
01:51:58 |

2 # Engineering Mathematics |
02:44:04 |

3 # Engineering Mathematics |
01:06:26 |

4 # Engineering Mathematics |
01:28:00 |

5 # Engineering Mathematics |
02:23:15 |

6 # Engineering Mathematics |
02:19:11 |

7 # Engineering Mathematics |
01:58:19 |

8 # Engineering Mathematics |
02:03:13 |

9 # Engineering Mathematics |
01:54:50 |

10 # Linearly Independent Eigen Vectors of a Matrix |
00:53:14 |

11 # Basic differentiation formulas and rules of differentiation |
00:43:32 |

12 # Engineering Mathematics |
00:48:41 |

13 # Engineering Mathematics |
00:28:02 |

14 # Engineering Mathematics |
00:53:35 |

15 # Engineering Mathematics |
01:24:41 |

16 # Engineering Mathematics |
01:23:23 |

1 # 1-9 |
00:50:26 |

2 # 8 |
00:29:02 |

3 # 10-16 |
00:51:41 |

4 # Ch 4 |
00:51:26 |

5 # Ch 5 |
00:09:03 |

6 # Ch 6 |
00:43:01 |

7 # Ch 7 A |
00:58:48 |

8 # Ch 7 B |
00:52:17 |

9 # EARTH 2 |
00:57:51 |

10 # Foundation 1 |
01:13:38 |

11 # Foundation 2 |
01:01:35 |

12 # Railways |
01:02:25 |

13 # EARTH 1 |
00:37:00 |

1 # 1 |
00:49:44 |

2 # 1-10 |
00:54:57 |

3 # 10-17 |
00:50:00 |

4 # 18-24 |
00:55:54 |

5 # 25-30 |
01:12:36 |

6 # 31-35 |
00:51:12 |

7 # 36-41 |
01:08:47 |

8 # 1 |
00:44:40 |

9 # 2 |
00:33:33 |

10 # 1-7 |
00:49:17 |

11 # 8-14 |
00:47:47 |

12 # 15- 24 |
00:45:09 |

13 # 25-31 |
00:37:26 |

14 # 1 |
00:28:40 |

15 # 1 |
00:29:13 |

16 # PLASTIC |
00:19:22 |

1 # Building Material & Construction |
01:33:30 |

2 # Building Material & Construction |
01:58:14 |

3 # Building Material & Construction |
01:24:10 |

4 # Building Material & Construction |
01:26:17 |

1 # 1.MTS |
01:16:49 |

2 # 2.MTS |
01:37:02 |

3 # 3.MTS |
01:01:14 |

4 # 4.MTS |
00:47:41 |

5 # 5.MTS |
01:21:33 |

6 # 6.MTS |
01:26:45 |

7 # 7.MTS |
02:37:27 |

8 # 8.MTS |
01:00:28 |

9 # 9.MTS |
01:48:25 |

10 # 10.MTS |
02:14:47 |

11 # 11.MTS |
01:42:13 |

12 # 12.MTS |
01:19:35 |

13 # 13.MTS |
01:42:01 |

14 # 14.MTS |
00:57:41 |

1 # C1 |
00:41:15 |

2 # 55 |
00:38:47 |

3 # C2 -1 |
00:43:11 |

4 # C2-2 |
01:01:42 |

5 # C2-3 |
00:19:43 |

6 # C2-4 |
00:37:50 |

7 # C2-5 |
00:54:03 |

8 # C2-6 |
01:00:56 |

9 # C2-7 |
00:45:20 |

10 # 40-45 |
00:44:38 |

11 # 46-55 trafic |
00:46:24 |

12 # C4 - 56 -61 |
00:51:45 |

13 # C4 - 62 - 67 |
00:41:53 |

14 # 68-73-5 |
00:36:59 |

1 # Quantitative Aptitude |
02:23:34 |

2 # Quantitative Aptitude |
01:53:48 |

3 # Quantitative Aptitude |
01:57:27 |

4 # Quantitative Aptitude |
01:48:33 |

5 # Quantitative Aptitude |
01:47:47 |

6 # Quantitative Aptitude |
01:36:44 |

7 # Quantitative Aptitude |
00:39:57 |

8 # Quantitative Aptitude |
01:36:44 |

9 # Mensration 1 |
00:23:12 |

10 # Quantitative Aptitude |
01:15:50 |

11 # Quantitative Aptitude |
00:39:57 |

12 # Quantitative Aptitude |
01:19:34 |

1 # 1 |
00:33:28 |

2 # 2 |
00:23:13 |

3 # 3 |
00:16:46 |

4 # 4 |
00:43:58 |

5 # 5 |
00:31:04 |

6 # 6 |
00:44:31 |

7 # 7 |
00:52:53 |

8 # 8 |
00:49:25 |

9 # 9 |
00:34:30 |

10 # 10 a |
00:34:18 |

11 # 10 |
00:47:02 |

12 # 11 |
00:19:29 |

13 # 12 |
00:43:57 |

14 # 13 |
00:33:02 |

15 # 14 A |
00:33:02 |

16 # 14 |
00:01:06 |

17 # 15 A |
00:02:02 |

18 # 15 |
00:05:48 |

19 # 16 |
00:16:53 |

20 # 17 |
00:11:38 |

21 # 18 |
00:08:47 |

22 # 19 |
00:09:55 |

23 # 20 |
00:03:39 |

1 # 1.MTS |
01:30:32 |

2 # 2.MTS |
00:37:17 |

3 # 3 |
00:30:18 |

4 # 4.MTS |
00:25:10 |

5 # 5.MTS |
00:50:11 |

6 # 6.MTS |
02:43:56 |

1 # 1.MTS |
01:33:49 |

2 # 2.MTS |
01:12:10 |

3 # 3.MTS |
01:04:29 |

4 # 4.MTS |
00:57:21 |

5 # 5.MTS |
00:25:30 |

1 # Introduction And fundamental |
02:50:42 |

2 # Introduction And fundamental |
02:40:53 |

3 # Introduction And fundamental |
02:54:43 |

4 # Design Methods |
02:56:16 |

5 # Design Methods & Introduction Of LSM |
02:58:58 |

6 # Design By LSM |
02:47:04 |

7 # Design Of Singly Reinforced Beam |
02:52:47 |

8 # Design Of Singly Reinforced Beam |
02:40:04 |

9 # Design Of Doubly Reinforced Beam |
02:54:43 |

10 # Design Of Doubly Reinforced Beam |
00:00:00 |

10 # Design Of Beam |
03:00:23 |

11 # Flanged Beam Design |
02:43:26 |

12 # Flanged Beam Design |
02:54:17 |

13 # Design of beam for shear |
02:56:03 |

15 # Design of beam for shear |
00:00:00 |

14 # Design of beam for shear-2 |
02:45:43 |

17 # Design of slab |
00:00:00 |

15 # Design of slab |
02:50:15 |

16 # Bond and Anchorage |
02:49:11 |

17 # Design of Column |
02:47:47 |

18 # Design of Column Part 2 |
02:46:24 |

19 # Footing and Indtroduction of WSM |
02:47:50 |

20 # Indtroduction of WSM and Introduction of Prestressed Concrete |
02:42:30 |

21 # Prestressed Concrete |
02:41:17 |

22 # Losses in Prestress |
02:36:49 |

1 # 1 to 4 |
01:06:57 |

2 # 5 AND 6 |
01:01:41 |

3 # 7 and 8 |
00:49:09 |

4 # 9 to 11 |
01:16:27 |

5 # 13 and 14 |
00:52:58 |

6 # 15 to 17 |
01:13:25 |

7 # 19, 20 |
01:16:32 |

8 # 20 and 21 |
00:20:16 |

1 # Engineering Mechanics |
01:30:24 |

2 # Engineering Mechanics |
01:29:04 |

3 # Engineering Mechanics |
01:29:23 |

4 # Engineering Mechanics |
01:30:30 |

5 # Engineering Mechanics |
01:29:20 |

6 # Engineering Mechanics |
01:40:13 |

7 # Engineering Mechanics |
01:22:23 |

8 # Engineering Mechanics |
01:12:40 |

9 # Engineering Mechanics |
01:09:08 |

10 # Engineering Mechanics |
00:57:57 |

1 # Linear Algebra |
03:49:15 |

2 # Linear Algebra |
03:23:30 |

3 # Linear Algebra |
02:53:08 |

4 # Linear Algebra |
02:51:44 |

5 # Linear Algebra |
02:44:45 |

6 # Linear Algebra |
02:42:51 |

7 # Linear Algebra & Probability |
02:55:04 |

8 # Probability & Statistics |
02:56:49 |

9 # Probability & Statistics |
02:50:44 |

10 # Probability & Statistics |
02:52:35 |

11 # Probability & Calculus |
02:55:17 |

12 # Calculus |
02:52:51 |

13 # Calculus |
01:32:53 |

14 # Calculus |
01:04:23 |

15 # Calculus |
02:47:32 |

16 # Calculus |
02:02:52 |

17 # Calculus |
00:19:29 |

18 # Calculus |
02:52:04 |

19 # Calculus |
02:48:33 |

20 # Calculus |
02:53:07 |

21 # Calculus & Differential Equations |
02:51:10 |

22 # Differential Equations |
02:51:17 |

23 # Differential Equations |
02:52:20 |

24 # Differential Equations |
02:47:54 |

25 # Laplace Transform & Fourier Series |
02:39:01 |

26 # Numerical Methods |
02:53:16 |

27 # Numerical Methods |
02:49:30 |

28 # Correlation, regression and complex functions |
02:44:47 |

1 # Concrete and its constituents |
02:47:18 |

2 # Type of cement, testing of cement, water, admixtures and aggregates |
02:46:51 |

3 # Admixtures, Fresh and Hardened concrete property |
02:56:33 |

4 # Mix Design and Estimation Costing |
02:54:21 |

1 # Basic concepts of network |
03:07:06 |

2 # CPM |
02:47:24 |

3 # CPM- FLOAT |
02:44:15 |

4 # PERT |
02:41:34 |

5 # CRASHING |
01:45:47 |

1 # PRICIPITATION |
02:44:57 |

2 # Precipitation-1 |
03:40:17 |

3 # Evaporation & INFILTRATION |
03:48:02 |

4 # Hydrograph |
03:44:26 |

5 # Flood and measurement |
02:53:04 |

6 # INTRODUCTION OF IRRIGATION |
02:39:24 |

7 # Duty, delta and efficiency of irrigation |
03:01:11 |

8 # Water logging, efficiency of irrigation |
02:47:38 |

9 # Soil reclamation and evapotranspiration |
02:56:58 |

10 # Design of canal |
02:51:40 |

11 # Design of lined canal |
02:55:02 |

12 # Dams, diversion headwork, cross drainage work |
01:52:58 |

13 # Khosla thoery |
01:14:03 |

14 # Khosla thoery |
00:25:45 |

1 # Basic Introduction |
02:38:23 |

2 # Basic Introduction |
02:48:59 |

3 # Connections |
02:44:51 |

4 # Welding |
02:58:20 |

5 # Welding 2 |
02:49:34 |

6 # Eccentric Connection Part-2 |
02:58:03 |

7 # Eccentric Connection Part-3 |
02:50:14 |

8 # Tension Member 2 |
02:47:07 |

9 # Compression members |
02:38:50 |

10 # Compression members 3 |
02:35:42 |

11 # Beams |
02:38:40 |

12 # Plate Girder |
02:29:35 |

13 # Truss and Gantry girder |
02:39:22 |

14 # Plastic analysis 2 |
02:25:53 |

15 # Plastic analysis 2 |
02:15:25 |

16 # Revision class |
01:11:17 |

1 # Static and Kinematic Indeterminacy |
03:54:06 |

2 # Static and Kinematic Indeterminacy-1 |
03:55:59 |

3 # Stability of Structure |
03:46:55 |

4 # Analysis of Truss |
03:34:34 |

5 # Analysis of Truss - 2 |
03:54:39 |

6 # Deflection of truss |
02:55:08 |

7 # Analysis of Arch |
02:48:59 |

8 # Analysis of Arch-1 |
02:53:40 |

9 # Influence Lines |
02:37:58 |

10 # ILD |
02:51:00 |

11 # ILD-1 |
02:49:49 |

12 # ILD-2 |
02:51:07 |

13 # ILD FOR TRUSS |
00:16:07 |

14 # ILD FOR TRUSS -02 |
02:32:26 |

15 # Analysis of indeterminate structure |
02:48:46 |

16 # Moment distribution method |
02:50:27 |

17 # Moment distribution method-1 |
02:50:02 |

18 # Moment distribution method-2 |
02:48:30 |

19 # Slope Defection Method |
02:57:07 |

20 # Matrix methods |
02:38:33 |

21 # Approximate methods of analysis |
02:26:59 |

**Online Classes**Online Classes of purchased course which will cover the Technical & Non-Technical Syllabus.

**Unlimited Access**Get unlimited access during the validity of the course. You can access the course 24/7 as per your convenience

**Student Interaction**Students can interact with our teachers using the chat and email option

**ABOUT US**

Nimbus is an online learning platform for Engineering graduates who are preparing for competitive exams like ESE,GATE,PSU,SSC -JE and other JE and AE exams.

**Quick Links**

**Our Courses**

**ADDRESS**

Khasra 262, Westend Marg, Near Garden of Five Senses, Saket, New Delhi, India 110030

**CONTACT US**

[email protected]

+91 7374000888, +91 7374000999

## Achieve your career dreams, wherever you are, whenever you want!