"GATE 2021 : Civil Engineering "

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

Fluid Mechanics & Hydraulic Machinery

1 # Basic concept of fluid mechanics	01:04:09
In these lecture basics of fluid mechanics is included. Here definition of fluid as well as other properties like density specific weight, specific gravity and compressibility is clearly explained.
2 # Numerical and concept of viscosity	00:41:07
Here numerical on bulk modulus is explained as well as viscosity with its dimension is introduced.
3 # Numerical of viscosity and concept of non-Newtonian fluid	00:58:09
In this chapter numerical based on viscosity is explained. Here rheological fluid is also explained with examples and graph.
4 # Surface tension and capillarity	01:40:40
What is surface tension, how it can be increased or decreases, what are the numerical which may be asked in your GATE are explained. Apart from this capillary action with derivation are also explained.
5 # Pressure Measurement	01:35:37
pressure and pressuring measuring device like piezometer , manometer are described in this lecture, in this lecture how to measure pressure by this equipment are also explained.
6 # Differential manometer and numerical on pressure measurement	01:58:07
What is micro manometer; how we can measure pressure difference is explained in this lecture. Apart from that GATE problems and expected questions are also solved in this class
7 # Hydrostatic force	01:26:37
In this lecture hydrostatic force Centre of pressure as well as location of Centre of pressure are explained. Apart from this some numerical are also solved in this lecture.
8 # Buoyancy and floatation	01:32:45
We often observe that our body feels lighter while taking a swim in the pool. Also, when drawing water from a well, the bucket feels lighter till it is partially or fully immersed in water. Have you ever wondered why this change in weight is felt? In this lecture it is explained very well and some numerical are also solved
9 # Kinematics (up to continuity equation)	01:48:34
In this lecture types of fluid low, stream line, path line and streak line are taught. “Continuity equation “is very important if flow takes place, here continuity equation for various conditions are explained.
10 # Velocity potential and stream function	01:22:42
Velocity potential and stream function are explained with verity of numerical
11 # Numerical	01:58:59
Numerical of GATE and many other problems are explained here
12 # Fluid dynamics	02:36:31
What are the cause of motion, Bernoulli’s equation, how to apply it and application of Bernoulli’s equation are well explained
13 # Numerical	02:46:30
Numerical are solved in this lecture which is very important for your GATE exam
14 # Combined numerical	03:00:44
combined numerical (up to dynamics are explained here with previous concept)
15 # Notch and Weir	00:51:33
How to measure discharge through a channel, types of notch and weir are explained in this lecture.
16 # Laminar Flow	02:22:58
Laminar flow is a flow regime characterized by high momentum diffusion and low momentum convection. Derivation of shear stress distribution and other parameter are explained
17 # Numerical	02:51:55
In this lecture we will cover various numerical as well as momentum correction factor and kinetic energy correction factor.
18 # Flow through pipe	02:48:15
This lecture covers numerical of flow through pipe.
19 # Boundary layer theory	02:39:24
The fundamental concept of the boundary layer was suggested by L. Prandtl (1904) which is well explained in this lecture. In this lecture we are discussing about the drag and lift forces coming on the immersed bodies in fluids. So we will see the expression for the drag force and lift force and various situations where the drag and lift acts on the bodies then how it can be calculated.
20 # Turbulent Flow	01:15:46
Turbulent flow is a type of fluid (gas or liquid) flow in which the fluid undergoes irregular fluctuations, or mixing, in contrast to laminar flow, in which the fluid moves in smooth paths or layers. In turbulent flow the speed of the fluid at a point is continuously undergoing changes in both magnitude and direction.
21 # HYDRAULIC MACHINE , Impact of Jet	02:31:42
In this chapter force exerted by jet on vertical and curved plate are explained
22 # Numerical	02:59:12
In this chapter numerical based on impact of jet are explained
23 # Hydraulic Turbine	04:01:21
In this chapter layout of hydraulic power plant, components of turbine with velocity triangle are explained.
24 # Numerical	02:04:27
Various type of numerical are solved in this lecture.
25 # Specific speed and unit speed	02:48:39
In this lecture we read specific speed, unit quantity with various types of numerical.
26 # Pump	02:34:25
In this lecture Construction and working with various type of efficiency are explained
27 # Numerical	03:30:08
In this lecture we learn about with NPSH with various types of numerical .

Strength of Material

Engineering Mathematics and Numerical Analysis

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
Linearly Independent Eigen Vectors of a Matrix
11 # Basic differentiation formulas and rules of differentiation	00:43:32
Basic differentiation formulas and rules of differentiation
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

Soil Mechanics & Foundation

1 # 1-9	00:50:26
1-9
2 # 8	00:29:02
8
3 # 10-16	00:51:41
10-16
4 # Ch 4	00:51:26
ch 4
5 # Ch 5	00:09:03
ch 5
6 # Ch 6	00:43:01
ch 6
7 # Ch 7 A	00:58:48
ch 7 A
8 # Ch 7 B	00:52:17
ch 7 B
9 # EARTH 2	00:57:51
EARTH 2
10 # Foundation 1	01:13:38
foundation 1
11 # Foundation 2	01:01:35
foundation 2
12 # Railways	01:02:25
railways
13 # EARTH 1	00:37:00
EARTH 1

Steel Structure

1 # 1	00:49:44
1
2 # 1-10	00:54:57
1-10
3 # 10-17	00:50:00
10-17
4 # 18-24	00:55:54
18-24
5 # 25-30	01:12:36
25-30
6 # 31-35	00:51:12
31-35
7 # 36-41	01:08:47
36-41
8 # 1	00:44:40
1
9 # 2	00:33:33
2
10 # 1-7	00:49:17
1-7
11 # 8-14	00:47:47
8-14
12 # 15- 24	00:45:09
15- 24
13 # 25-31	00:37:26
25-31
14 # 1	00:28:40
1
15 # 1	00:29:13
1
16 # PLASTIC	00:19:22
PLASTIC

Building Material & Construction

1 # Building Material & Construction	01:33:30
Building Material & Construction
2 # Building Material & Construction	01:58:14

3 # Building Material & Construction	01:24:10

4 # Building Material & Construction	01:26:17

Structure Analysis

1 # 1.MTS	01:16:49
1.MTS
2 # 2.MTS	01:37:02
2.MTS
3 # 3.MTS	01:01:14
3.MTS
4 # 4.MTS	00:47:41
4.MTS
5 # 5.MTS	01:21:33
5.MTS
6 # 6.MTS	01:26:45
6.MTS
7 # 7.MTS	02:37:27
7.MTS
8 # 8.MTS	01:00:28
8.MTS
9 # 9.MTS	01:48:25
9.MTS
10 # 10.MTS	02:14:47
10.MTS
11 # 11.MTS	01:42:13
11.MTS
12 # 12.MTS	01:19:35
12.MTS
13 # 13.MTS	01:42:01
13.MTS
14 # 14.MTS	00:57:41
14.MTS

Transportation Engineering

1 # C1	00:41:15
C1
2 # 55	00:38:47
55
3 # C2 -1	00:43:11
C2 -1
4 # C2-2	01:01:42
C2-2
5 # C2-3	00:19:43
C2-3
6 # C2-4	00:37:50
C2-4
7 # C2-5	00:54:03
C2-5
8 # C2-6	01:00:56
C2-6
9 # C2-7	00:45:20
C2-7
10 # 40-45	00:44:38
40-45
11 # 46-55 trafic	00:46:24
46-55 trafic
12 # C4 - 56 -61	00:51:45
C4 - 56 -61
13 # C4 - 62 - 67	00:41:53
C4 - 62 - 67
14 # 68-73-5	00:36:59
68-73-5

Environmental Engineering

General Aptitude & Reasoning

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
Mensration 1
10 # Quantitative Aptitude	01:15:50

11 # Quantitative Aptitude	00:39:57

12 # Quantitative Aptitude	01:19:34

Surveying

1 # 1	00:33:28
1
2 # 2	00:23:13
2
3 # 3	00:16:46
3
4 # 4	00:43:58
4
5 # 5	00:31:04
5
6 # 6	00:44:31
6
7 # 7	00:52:53
7
8 # 8	00:49:25
8
9 # 9	00:34:30
9
10 # 10 a	00:34:18
10 a
11 # 10	00:47:02
10
12 # 11	00:19:29
11
13 # 12	00:43:57
12
14 # 13	00:33:02
13
15 # 14 A	00:33:02
14 A
16 # 14	00:01:06
14
17 # 15 A	00:02:02
15 A
18 # 15	00:05:48
15
19 # 16	00:16:53
16
20 # 17	00:11:38
17
21 # 18	00:08:47
18
22 # 19	00:09:55
19
23 # 20	00:03:39
20

Hydrology Engineering

1 # 1.MTS	01:30:32
1.MTS
2 # 2.MTS	00:37:17
2.MTS
3 # 3	00:30:18
3
4 # 4.MTS	00:25:10
4.MTS
5 # 5.MTS	00:50:11
5.MTS
6 # 6.MTS	02:43:56
6.MTS

Irrigation Engineering

1 # 1.MTS	01:33:49
1.MTS
2 # 2.MTS	01:12:10
2.MTS
3 # 3.MTS	01:04:29
3.MTS
4 # 4.MTS	00:57:21
4.MTS
5 # 5.MTS	00:25:30
5.MTS

Reinforced Cement Concrete

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

Open Channel Flow

1 # 1 to 4	01:06:57
1 to 4
2 # 5 AND 6	01:01:41
5 AND 6
3 # 7 and 8	00:49:09
7 and 8
4 # 9 to 11	01:16:27
9 to 11
5 # 13 and 14	00:52:58
13 and 14
6 # 15 to 17	01:13:25
15 to 17
7 # 19, 20	01:16:32
19, 20
8 # 20 and 21	00:20:16
20 and 21

CPM & PERT

Engineering Mechanics

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

Engineering Mathematics Live

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

Fluid Mechanics

Quantative Aptitiute Live

Building Material & Construction Live

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

CPPM Pert

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

Hydrology Engineering & .Irrigation 9 - Oct

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

Steel 12-Oct

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

TOS (19)

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

Reasoning (24-Nov)

₹ 25000

Take This Course

150 Number of videos

600 Hours of lectures

86 Learners

24x7 Online Access

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