If it is subjected to an internal shear of V = 340 kN , determine the maximum shear stress developed in the beam before the cuts were made. B) Determine the maximum shear stress developed in the beam after the cuts were made.

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
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A) If it is subjected to an internal shear of V = 340 kN , determine the maximum shear stress developed in the beam before the cuts were made.

B) Determine the maximum shear stress developed in the beam after the cuts were made.

The image depicts a detailed three-dimensional diagram of a rectangular beam section. The beam has an outer width of 200 mm and an outer height of 100 mm. The wall thickness is uniformly 25 mm.

### Features:
- **Outer Dimensions:**
  - Width: 200 mm
  - Height: 100 mm
- **Wall Thickness:** 25 mm on all sides
- **Inner Dimensions:**
  - Inner width and height each have a deduction of 50 mm from the outer dimensions due to the uniform wall thickness on each side (2 x 25 mm).
- **Internal Void:**
  - Shows a central void, emphasizing the 'H' or 'I' beam structure. The void runs vertically through the center.

### Use:
- This type of beam is typically used in construction for its strength-to-weight ratio, providing support while minimizing material usage.
Transcribed Image Text:The image depicts a detailed three-dimensional diagram of a rectangular beam section. The beam has an outer width of 200 mm and an outer height of 100 mm. The wall thickness is uniformly 25 mm. ### Features: - **Outer Dimensions:** - Width: 200 mm - Height: 100 mm - **Wall Thickness:** 25 mm on all sides - **Inner Dimensions:** - Inner width and height each have a deduction of 50 mm from the outer dimensions due to the uniform wall thickness on each side (2 x 25 mm). - **Internal Void:** - Shows a central void, emphasizing the 'H' or 'I' beam structure. The void runs vertically through the center. ### Use: - This type of beam is typically used in construction for its strength-to-weight ratio, providing support while minimizing material usage.
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