Proper Calculation of Shear Flow Values for Aluminum Strut

What are the shear flow values at points A and B for an aluminum strut of 10 mm thickness subjected to a shear of V=18kN?

Final answer:

A) Shear flow at point A: 12 N/mm, Shear flow at point B: 6 N/mm

B) Shear flow at point A: 6 N/mm, Shear flow at point B: 12 N/mm

C) Shear flow at point A: 18 N/mm, Shear flow at point B: 18 N/mm

D) Shear flow at point A: 0 N/mm, Shear flow at point B: 0 N/mm

Answer:

Proper calculation of shear flow values at points A and B on a 10 mm thick aluminum strut subjected to 18kN of shear force requires detailed information about the geometry of the cross-section and location of points A and B, which is not provided.

When determining the shear flow values at points A and B for an aluminum strut of 10 mm thickness with a given cross-section subjected to a shear force of V=18kN, we must consider the distribution of shear stress across the cross-sectional area and its relation to the shear force.

This calculation involves an understanding of the strut's geometry and how the shear force is applied. Shear flow, denoted as 'q', is calculated as the product of shear stress (τ) and the thickness (t) of the section, i.e., q = τt.

However, based on the information given, we lack sufficient details regarding the location and specifics of points A and B or the cross-sectional shape to accurately determine the shear flow at these points.

Without additional information on the cross-sectional geometry and the load distribution applied, it is not possible to confidently select one of the given choices (A, B, C, D). Further details about the geometry and applied load distribution would be needed to calculate the shear flow accurately.

← Gamma ray attenuation calculation Understanding inertia exploring the relationship between mass and speed →