**Problem 6-76: Determining Forces on a Frame****Objective:**To determine the horizontal and vertical components of force which the pins at points A and B exert on the frame.**Diagram Explanation:**The diagram depicts a frame subjected to a uniformly distributed load of 400 N/m over a horizontal span of 2 meters. - The frame consists of a vertical member on the left connected to a vertical member on the right, spanning a height of 3 meters each.- The frame is pinned at points A and B, situated 1.5 meters above the base.- There are additional members forming a truss-like structure within the frame: - Member DC is horizontal, measuring 2 meters at the top. - Members DE, CF, and EF form a triangular structure, providing stability.- The dimensions provided are 3 meters for vertical members and 1.5 meters from the base to the pins A and B.**Load Details:**- The load is applied horizontally from the top of the left member over a distance of 2 meters.- The load intensity is 400 N/m.In solving this problem, one would typically use principles of static equilibrium and truss analysis to find the reactions at pins A and B and determine the force components they exert on the frame.

Horizontal and vertical components- The horizontal velocity component (Vx) describes how the…

Answered: *6-76. Determine the horizontal and…

*6-76. Determine the horizontal and vertical components of force which the pins at A and B exert on the frame. 2m 400 N/m T. D 1.5 m E 3 m 3m 1.5 m

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Concept explainers

Mechanics of Solids

It is the study of the behavior of solid materials, their characteristics under various circumstances such as variation in external forces, temperature, and other internal factors. It is one of most important study in the field of engineering science, especially chemistry and mechanical engineering. In rigid body, the idealization of the solid body in which deformation is neglected. Deformation is known as the force acting on the solid state system which exerts change in its shape of the body but it continues to be at rest or in a uniform motion but it cannot accelerate. But those solid systems do have elasticity, compressibility and can be bent. This field is very vast since there are wide range of materials around us.

Question

**Problem 6-76: Determining Forces on a Frame**

**Objective:**
To determine the horizontal and vertical components of force which the pins at points A and B exert on the frame.

**Diagram Explanation:**
The diagram depicts a frame subjected to a uniformly distributed load of 400 N/m over a horizontal span of 2 meters.

- The frame consists of a vertical member on the left connected to a vertical member on the right, spanning a height of 3 meters each.
- The frame is pinned at points A and B, situated 1.5 meters above the base.
- There are additional members forming a truss-like structure within the frame:
- Member DC is horizontal, measuring 2 meters at the top.
- Members DE, CF, and EF form a triangular structure, providing stability.
- The dimensions provided are 3 meters for vertical members and 1.5 meters from the base to the pins A and B.

**Load Details:**
- The load is applied horizontally from the top of the left member over a distance of 2 meters.
- The load intensity is 400 N/m.

In solving this problem, one would typically use principles of static equilibrium and truss analysis to find the reactions at pins A and B and determine the force components they exert on the frame.

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