REINFORCEMENT IN CONCRETE, FOUNDATIONS, CONCRETE FLOORS AND QUANTITIES (SPECIFIC) 6.1 Various options are given as possible answers to the following questions - NSC Civil Technology Construction - Question 6 - 2020 - Paper 1

The correct answer is: C 12 000 mm. This length is sufficient for most construction purposes.

The correct answer is: D All the above-mentioned. Reinforcement bars are crucial for maintaining dimension stability under various forces.

The correct answer is: D All the above-mentioned. Minimum concrete cover is essential for ensuring durability and safety.

1. Poor soil conditions: Pile foundations help stabilize structures where the surface soil is weak or unstable, such as soft or loose soil.
2. Load distribution: They distribute loads more evenly to deeper, more stable soil layers, reducing the risk of settling.

The sketch should include:

• Steel cable: Depict it correctly at the top of the pile.
• Steel pipe-casing: Shown as surrounding the pile.
• Drop hammer: Illustrate it correctly as the tool used for driving the pile.
• Any ONE label: Clearly label the components to show understanding.

1. Structural instability: The block may not support proper weight distribution, leading to potential collapse or fall-through.
2. Risk of excessive weight: Without sufficient openings, the block can accumulate undue stress from lack of ventilation and moisture.

The drawing should fix highlighted errors:

• Ensure proper reinforcement in the ribs.
• Illustrate correct rebates or supports to strengthen the structure.

The minimum recommended width for load-bearing walls supporting rib and block floors is 220 mm.

The sectional view should show:

• Column: Depicted as a circular shape.
• Main bars: Eight evenly spaced bars inside the column.
• Stirrups: Included as necessary reinforcement.
• Cover depth: Clearly indicated with appropriate measurements.

To calculate the area: Using the dimensions:

• Length: 6 500 mm
• Width: 4 500 mm

The area is calculated as: $ext{Area} = ext{Length} imes ext{Width} = 6 500 imes 4 500 = 29,250,000 ext{ mm}^2 = 29.25 ext{ m}^2$

To calculate the volume of concrete: Using the area calculated and the thickness:

• Area: $29.25 ext{ m}^2$
• Thickness: $0.075 ext{ m}$

The volume is: $ext{Volume} = ext{Area} imes ext{Thickness} = 29.25 imes 0.075 = 2.194 ext{ m}^3$ Rounding off to two decimal places: 2.19 m³.

To find the number of tiles:

• Size of one tile: $350 ext{ mm} imes 350 ext{ mm} = 0.1225 ext{ m}^2$
• Total area to be covered: $29.25 ext{ m}^2$

The number of tiles is calculated as: ext{Number of tiles} = rac{ ext{Total area}}{ ext{Area of one tile}} = rac{29.25}{0.1225} = 239.22 ext{ tiles} Rounding up gives 240 tiles needed.