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Учебное пособие GeoStudio Slope/W: анализ уклона с двумя слоями почвы и условиями давления порово...

Учебное пособие GeoStudio Slope/W: анализ уклона с двумя слоями почвы и условиями давления порово...
2-21: Determine the design angle θ (0°≤ θ ≤ 90°)for member AB so that the 400-lb horizontal force

2-21: Determine the design angle θ (0°≤ θ ≤ 90°)for member AB so that the 400-lb horizontal force
2-20: Determine the angle θ for connecting member A to plate so that resultant force of FA and FB

2-20: Determine the angle θ for connecting member A to plate so that resultant force of FA and FB
2-19: The plate is subjected to two forces at A and B. If θ = 60°, determine magnitude of resultant

2-19: The plate is subjected to two forces at A and B. If θ = 60°, determine magnitude of resultant
2-18: Determine the magnitude and direction of the resultant FR = F1 + F2 + F3, 1st, F’ = F2 + F3

2-18: Determine the magnitude and direction of the resultant FR = F1 + F2 + F3, 1st, F’ = F2 + F3
Problem 2-16: Determine angle θ for connecting member B to plate so that the resultant of FA and FB

Problem 2-16: Determine angle θ for connecting member B to plate so that the resultant of FA and FB
2-17: Determine the magnitude and direction of the resultant FR = F1 + F2 + F3, 1st, F’ = F1 + F2

2-17: Determine the magnitude and direction of the resultant FR = F1 + F2 + F3, 1st, F’ = F1 + F2
Problem 2-15 Plate is subjected to forces acting on members A & B. Determine magnitude of resultant

Problem 2-15 Plate is subjected to forces acting on members A & B. Determine magnitude of resultant
Converting bearing measured in decimal to degree minutes and seconds and vice versa. Bearing Survey

Converting bearing measured in decimal to degree minutes and seconds and vice versa. Bearing Survey
Shear & Moment Diagram | Problem 6-4 (Part 2) | Simply Supported Beam | Mechanics of Materials

Shear & Moment Diagram | Problem 6-4 (Part 2) | Simply Supported Beam | Mechanics of Materials
Shear & Moment Diagram | Problem 6-4 (Part 1) | Simply Supported Beam | Mechanics of Materials

Shear & Moment Diagram | Problem 6-4 (Part 1) | Simply Supported Beam | Mechanics of Materials
Problem 6-3: Draw the shear and moment diagrams for the overhang beam.

Problem 6-3: Draw the shear and moment diagrams for the overhang beam.
Problem 6-2: The dead-weight loading along centerline of airplane wing is shown Draw bending diagram

Problem 6-2: The dead-weight loading along centerline of airplane wing is shown Draw bending diagram
Problem 3-2: Members of truss are pin connected. Determine magnitudes of F1 & θ for equilibrium.

Problem 3-2: Members of truss are pin connected. Determine magnitudes of F1 & θ for equilibrium.
Problem 3-1: Members of truss are pin connected. Determine magnitudes of F1 & F2 for equilibrium.

Problem 3-1: Members of truss are pin connected. Determine magnitudes of F1 & F2 for equilibrium.
Problem 2-14 If resultant force acting to be 1200 lb, determine F in rope A & corresponding angle θ.

Problem 2-14 If resultant force acting to be 1200 lb, determine F in rope A & corresponding angle θ.
Problem 2-13: The pelvis P is connected to the femur F at A using three different muscles. Resultant

Problem 2-13: The pelvis P is connected to the femur F at A using three different muscles. Resultant
Problem 2-11: If θ= 60°, determine the magnitude of the resultant force and its direction

Problem 2-11: If θ= 60°, determine the magnitude of the resultant force and its direction
Problem 2-9: Determine the magnitude of the resultant force FR= F1 + F2 and its orientation θ.

Problem 2-9: Determine the magnitude of the resultant force FR= F1 + F2 and its orientation θ.
Problem 2-7: Resolve the force F1 into components acting along u and v axes & determine magnitudes.

Problem 2-7: Resolve the force F1 into components acting along u and v axes & determine magnitudes.
Problem 6-2: The dead-weight loading along centerline of airplane wing is shown. Draw shear diagram

Problem 6-2: The dead-weight loading along centerline of airplane wing is shown. Draw shear diagram
Problem 2-6: Determine the magnitude of the resultant force FR= F1 + F2 & its direction with u axis.

Problem 2-6: Determine the magnitude of the resultant force FR= F1 + F2 & its direction with u axis.
Задача 6-2: Показана нагрузка от собственного веса вдоль осевой линии крыла самолёта. Определите ...

Задача 6-2: Показана нагрузка от собственного веса вдоль осевой линии крыла самолёта. Определите ...
Problem 6-1: Draw shear and moment diagrams for the shaft: Part 2

Problem 6-1: Draw shear and moment diagrams for the shaft: Part 2
Problem 6-1: Draw shear and moment diagrams for shaft. The bearings at A and B: Part 1 Support Reac.

Problem 6-1: Draw shear and moment diagrams for shaft. The bearings at A and B: Part 1 Support Reac.
GeoStudio Slope/W Tutorial: Basics Explained and Step-by-Step Tutorial with a Solved Example!

GeoStudio Slope/W Tutorial: Basics Explained and Step-by-Step Tutorial with a Solved Example!
Задача 1-65 Определите наибольшую нагрузку P, которую можно приложить к раме.

Задача 1-65 Определите наибольшую нагрузку P, которую можно приложить к раме.
Problem 1-59 Determine the average normal and average shearstress resisted in the plane of the weld.

Problem 1-59 Determine the average normal and average shearstress resisted in the plane of the weld.
Solved Example on Height of Instrument Method: Explained in animations and sketch illustrations

Solved Example on Height of Instrument Method: Explained in animations and sketch illustrations
Methods of Levelling: Height of Instrument and Rise and Fall Method

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