10:24

Methods of Levelling: Height of Instrument and Rise and Fall Method

07:07

Principle of Levelling & Equipment Required for Levelling, Explanation using 3D Animations

07:21

Levelling: An introduction and basic terms used in Levelling (Explanation using 3D animations)

07:11

Problem 9-62 Determine the normal & shear stresses that act perpendicular and parallel to the grains

04:48

Problem 2-58: Determine the magnitude and direction θ of F so that the resultant force directed x'

07:28

Problem 2-48: Determine the magnitude and direction θ of F1 so that the resultant force directed x'

03:18

Problem 2-46: Determine the magnitude and orientation θ of FB so that the resultant force is 1500 N.

12:34

Problem 9-51 Determine (a) principal stresses and (b) maximum in-plane shear stress by Mohr's Circle

06:55

Problem 2-44: Determine the required magnitude of F3 expressed in terms of F1 and the angle θ.

07:43

Problem 2-43 Determine the magnitude of resultant force & its direction, measured counterclockwise

04:54

Problem 2-41 Determine the magnitude of resultant force & its direction, measured counterclockwise

05:12

Problem 2-37 Determine the magnitude of the resultant force acting on gusset plate and its direction

07:12

Omitted measurement in Surveying: Determining length of two different lines in close travrs (Case 3)

07:17

Problem 2-26 & 2-27 Determine magnitude & direction θ of FA & Resultant force acting on ring at O

11:03

Omitted measurement in Surveying: Determining length of one line and bearing of other line (Case 2)

05:06

Problem 2-4 Determine the magnitudes of two components of F along members AB and AC. Set F = 500 N.

06:02

Problem 2-3 Determine the angle θ and magnitude of F, resultant force 750N is directed vertically up

12:19

Omitted measurement in Surveying: Determining length and bearing of same line (Case 1)

12:52

Solved Example of Vertical Curve (Sag Curve): Complete calculations of vertical parabolic curve

06:00

Problem 2-2 Determine the magnitude of the resultant force FR = F1 - F2 and its orientation u x-axis

06:54

Problem 2-1 Determine the magnitude of the resultant force FR = F1 + F2 and its orientation u x-axis

09:25

Solved Example on Reverse Curve; Setting out of reverse curve using deflection angle method (Part-2)

10:06

Solved Example on Reverse Curve; Calculating basic data for setting out of reverse curve (Part-1)

07:06

Reverse Curve: An introduction, notations & calculations required for setting out a reverse curve

09:48

Problem 9-46 Determine the stress components acting on the inclined plane AB by Mohr's Circle Method

07:41

Problem 9-45 Determine the stress components acting on the inclined plane AB by Mohr's Circle Method

10:43

Problem 9-22 Determine the stress components acting on the plane AB. By Mohr's Circle Method

08:36

Problem 1-78 Determine the required minimum diameter of pins B and C. Failure shear stress is given

07:44

Problem 1-56 Determine the angle (Theta) if avg: normal stress is equivalent in each AB and BC rod

09:25

Problem 1-15 Determine the reactive force at pin A and in the short link BC, Metal stud punch

09:27

Problem 1-37 Determine the average shear stress in the pins at A, B, & C, All pins in double shear

09:04

Problem 1-35 Determine the largest intensity w of the uniform loading on frame when stress is given

05:52

Problems 1-33 & 1-34 Maximum allowable clamping force F & average shear stress stress at glued plane

04:12

Problem 1-32 Average Normal Stress at point D and E, Mechanics of Materials

14:55

Solved Example on Mohr's Circle, Transformation of Plane Stresses, Principal Stresses and Max: Shear

09:12

Solved Example on Transformation of Plane Stress: An analytical method (using equations)

09:05

Mohr's Circle for Transformation of Plane Stress: Graphical method of plane stress transformation

11:49

Plane of Maximum Shear Stress: Maximum in-plane Shear Stress, Normal Stress at Plane of Max: Shear.

10:16

Principal Stresses & Principal Planes: Derivation of Major & Minor Principal Stresses & Orientation

13:52

Plane Stress and Transformation of Plane Stress: An introduction

08:48

Solved Example of Vertical Curve (Crest Curve): Complete calculations of vertical parabolic curve

11:17

Vertical curve: Introduction, types, derivation of formula & high and low points in vertical curve

16:34

Solved Example of Compound Curve; Calculations for setting out using Deflection Angle Method

09:53

Compound curve: An introduction and basic calculations required for setting out a compound curve

14:34

Solved Example on Setting out of Simple Circular Curve by Deflection Angle Method/Setting out Table

11:31

Data Types in C++ programming and Rules for Identifiers: Class 4

11:11

Solved Example on Setting out of Simple Circular Curve by taking Offsets from the Long Chord

09:23

Deflection Angle Method/Rankine's Method of Setting out of Simple Circular Highway Curve

04:46

Calculating Length and Bearing of a line between two given coordinates, (with solved example)

06:44

Setting out of Simple Circular Curve by Taking Offsets from Long Chord

08:01

Calculating Tangent length, Long chord, External ordinate, Mid ordinate and Length of Circular Curve

05:27

Elements of Simple Circular Highway Curve (Notations of Simple Circular Curve)

06:33

Variables and Constants in C++ Programming

05:45

New line, tab space and comments in C++ Programming

04:30

First C++ Program, Introduction to C++ Programming

07:17

Calculating Coordinates in a Traverse using Microsoft Excel

07:21

Calculating Coordinates in a Close Traverse; When the length and bearing of all the lines are given

04:44

Calculating Coordinates in an Open Traverse; When length and bearing of all the lines are given

08:16

Latitude and Departure in Surveying; Calculating Rectangular Coordinates (with Solved Example)

04:34

Bearing Problems in Surveying (WCB to RB and RB to WCB Examples)