Class 9 Skill Education Kaushal Vikas Chapter 6 Construction Solutions (NCERT 2026–27)
These Class 9 Skill Education Kaushal Vikas Chapter 6 Construction solutions cover the full chapter from Unit II – Work with Machines and Materials of the new NCF-2023 textbook (2026–27). You will learn what construction is, the basic structural elements of a building, how to scope work and make a process chart, prepare technical drawings, select materials and tools, prepare a Bill of Materials, lay bricks, cure, plaster, finish and paint — plus complete, exam-ready answers to every “Assess your learning” question.
Class 9 Kaushal Vikas Chapter 6 Construction – Overview
Chapter 6, Construction, introduces the building trade as a hands-on vocational skill. It begins with the scale of construction in India — over 6,138 dams built between Independence and 2025, including the 261 m Tehri dam — and explains that construction is simply the process of building the structures we use every day. The chapter then walks you through a complete mini-project: scoping the work (deciding what, where and with which materials to build), making a process chart, doing a site visit, preparing a technical drawing to scale, selecting materials and tools, preparing a Bill of Materials (including estimating bricks and mortar), carrying out minor repairs, and finally building, curing, plastering, finishing and painting a small structure such as a ramp, boundary wall or tree guard. Safety and quality (alignment using plumb bob, spirit level and water level tube) run through every step.
Key Concepts & Notes
What is construction?
Construction is the process of building structures that people use in daily life — homes, schools, hospitals, shops, factories, roads, bridges and railway stations. From cave shelters to mud-and-grass huts, and then to brick, cement, iron and steel, construction evolved so people could build stronger, longer-lasting buildings. As towns grew into cities, multi-storey buildings became common.
Basic structural elements of a building
| Element | Function |
|---|---|
| Foundation | Strong base that increases the life of the building, avoids cracks and safeguards against calamities like earthquakes; its depth depends on the load. |
| Walls | Made from bricks, stones, cement panels, wood, bamboo, etc.; enclose and divide the building. |
| Beams | Horizontal elements that carry the load of the slab (upper floors) or roof; size depends on the load. |
| Columns | Vertical elements that support the beams and transfer the building’s weight to the foundation. |
| Roofs | Upper element built with rafters or trusses; supports the roof load and protects from weather. |
| Windows and doors | Structural openings in walls for entry, ventilation, natural light and aesthetic appeal. |
Two main types of housing construction
Load-bearing (wall-bearing) construction: the walls themselves carry the whole load and transfer it directly to the ground. Used for single-storey houses and where deep foundations are not needed — simple, cheaper and easy to repair. RCC (Reinforced Cement Concrete) construction: the building stands on a skeleton of concrete-and-steel columns and beams; the load passes through this frame, not the walls. Used for multi-storey, very strong, earthquake-resistant buildings.
Process chart and scoping work
Before building, decide what to construct (a boundary wall, shed, ramp, pavement, wash basin, etc.), whether materials and tools are available and affordable, whether the structure is useful, and where it will be built. Then make a process chart listing the key tasks with target dates and responsibilities.
| Tasks for construction |
|---|
| Preparing the construction drawing |
| Marking the drawing on the field (line out) |
| Preparation of foundation |
| Brick work |
| Curing (process to strengthen the construction) |
| Plastering |
| Finishing and painting |
Mortar vs concrete
Mortar (sand + cement + water, sometimes lime) is used to bind materials — gluing bricks, laying steps, fixing tiles — and is more flexible. Concrete (sand + cement + water + gravel/crushed stone) creates the actual structure and supports weight; it hardens to a stone-like strength. Concrete reinforced with steel bars is RCC.
Mortar ratios
| Use of mortar | Ratio (cement : sand) |
|---|---|
| Brick masonry | 1:3 |
| RCC | 1:2 |
| General repair and maintenance | 1:3 to 1:6 |
For plastering, the usual cement-to-fine-sand ratio is 1:6 for external and 1:4 for interior walls. By rule of thumb, about 5–10 kg of cement lays 100 standard bricks at a 1:4 or 1:5 ratio.
Estimating bricks and the Bill of Materials
In India the standard brick is 190 × 90 × 90 mm, but adding 10 mm for mortar we treat it as 200 × 100 × 100 mm. By rule of thumb, 1 m³ of construction needs about 500 bricks, and engineers add 10% extra for breakage and cutting. The Bill of Materials (BoM) lists every material and labour cost so the team buys only what is needed and avoids waste.
Brick bonds, alignment, curing and finishing
Bricks are laid in patterns called bonds — stretcher (length facing front, for thin/boundary walls), header (width facing front, for thick or curved walls), English (alternate stretcher and header rows, among the strongest, for wall-bearing structures) and Flemish (alternate stretcher and header in each row). Bricks are soaked 6–12 hours before laying. Alignment is checked with the plumb bob (vertical), spirit level (horizontal) and water level tube (two distant points at the same height). After brickwork comes curing (keeping the surface wet for 14–28 days so the cement gains strength), then plastering (12–15 mm thick, base + second coat), and finally painting (whitewash, distemper or cement paint) for protection and appearance.
Key Terms
| Term | Meaning |
|---|---|
| Construction | The process of building structures that people use in daily life. |
| Foundation | The strong base of a building that bears its load and transfers it to the ground. |
| Beam | Horizontal structural element that carries the load of the slab or roof. |
| Column | Vertical structural element that supports beams and transfers weight to the foundation. |
| Load-bearing construction | Construction in which the walls themselves carry and transfer the building’s load. |
| RCC | Reinforced Cement Concrete — a frame of concrete and steel columns/beams that carries the load. |
| Mortar | A binding mixture of cement, sand and water used to join bricks and fill joints. |
| Concrete | A strong mix of cement, sand, water and gravel/crushed stone used to form structures. |
| Bill of Materials (BoM) | A list of materials and labour with quantities and costs, prepared to estimate cost and avoid waste. |
| Curing | Keeping new construction wet for 14–28 days so the cement reaction completes and gains strength. |
| Plastering | Applying a smooth or textured coat of plaster to a wall for durability and a neat finish. |
| Plumb bob | A weight on a string used to check that a wall or pillar is perfectly vertical. |
| Spirit level | A tool that uses a bubble to check whether a surface is horizontal or vertical. |
| Water level tube | A water-filled transparent tube used to check that two distant points are at the same height. |
| Brick bond | The pattern in which bricks are arranged and laid (stretcher, header, English, Flemish) for strength. |
| Technical drawing | A scaled drawing (side view, plan, elevation) that communicates the exact details of the structure. |
Assess your learning — Solutions
All nine “Assess your learning” questions (Section 6.12) are reproduced verbatim from the NCERT textbook; answers are original and exam-ready. Questions 1, 2, 8 and 9 are reflective/observational tasks — model answers and guidance are given since your own work and surroundings should fill in the specifics.
1. Look around your school or neighbourhood, and identify any one structure. Identify the basic structural elements (foundation, walls, roof, beams or columns) that you can observe and describe their functions.
2. What kind of construction has been used for your house or school (Load-bearing construction or RCC construction)? Write the reasons for selecting particular types of construction.
3. Suppose you are asked to construct a small boundary wall in your school. List the major steps you would include in the process chart and explain why sequencing of steps is important.
4. Identify three safety rules that must be followed at a construction site. Explain how ignoring any one of them could lead to an accident.
5. Cement was left exposed in the room during the rainy season for many months. What might happen to cement and why ?
6. Often, during summer season, especially during a drought year, the Government bans construction activities. Why do you think this is done?
7. A student is laying bricks to make a boundary wall and decides to skip using the plumb bob to save time, claiming they can ‘see’ if the wall is straight. What is the specific technical risk of relying on visual estimation instead of a plumb bob? If the wall is even slightly ‘out of plumb’ (not perfectly vertical), how might this affect the building’s safety over the years?
8. Of the tasks that you did, which did you enjoy the most? Which did you enjoy the least? Give examples of what went well and what did not go well. What would you do differently next time?
This is a self-reflection task. Write honestly about the tasks you actually performed; there is no single correct answer.
9. Give examples of how you can apply your learnings in a real-life situation.
Extra Practice Questions
Short Answer Type Questions
Q1. What is the difference between a beam and a column?
Q2. Why must bricks be soaked in water for 6–12 hours before laying?
Q3. What is curing and how long does it usually take?
Q4. State the standard size of a brick in India and the size used for estimation.
Q5. Name three tools used to ensure correct alignment during construction.
Long Answer Type Questions
Q1. Explain the steps a student team would follow to prepare a Bill of Materials for constructing a ramp.
Q2. Describe the complete process of building and finishing a small structure, from preparing the ground to painting.
Q3. Distinguish between load-bearing and RCC construction with their uses.
MCQs & Assertion–Reason
1. The horizontal structural element that carries the load of the slab is called a:
(a) column (b) beam (c) foundation (d) truss
2. In load-bearing construction, the weight of the building is carried mainly by the:
(a) columns (b) beams (c) walls (d) roof
3. The standard size of a brick in India is:
(a) 200 × 100 × 100 mm (b) 190 × 90 × 90 mm (c) 150 × 75 × 75 mm (d) 230 × 110 × 70 mm
4. By rule of thumb, 1 m³ of construction needs about how many bricks?
(a) 100 (b) 250 (c) 500 (d) 1000
5. The recommended cement-to-sand ratio of mortar for brick masonry is:
(a) 1:2 (b) 1:3 (c) 1:6 (d) 1:8
6. Which tool is used to check whether a wall is perfectly vertical?
(a) spirit level (b) metre tape (c) plumb bob (d) trowel
7. Bricks should be soaked in water before laying for at least:
(a) 1–2 hours (b) 6–12 hours (c) 24–48 hours (d) no soaking needed
8. Curing of new construction should generally be continued for:
(a) 1–2 days (b) 5–7 days (c) 14–28 days (d) 60 days
9. Which mixture is used to create the actual structure and support heavy weight?
(a) mortar (b) concrete (c) lime wash (d) distemper
10. The strongest brick bond, with alternate rows of stretcher and header, used for wall-bearing structures is:
(a) stretcher bond (b) header bond (c) English bond (d) Flemish bond
For each Assertion–Reason question, choose: (A) Both true and the Reason correctly explains the Assertion; (B) Both true but the Reason is not the correct explanation; (C) Assertion true, Reason false; (D) Assertion false, Reason true.
A-R 1. Assertion: A strong foundation is needed for a building.
Reason: The foundation increases the life of the building, avoids cracks and safeguards against calamities like earthquakes.
A-R 2. Assertion: Bricks are soaked in water before laying.
Reason: Dry bricks would absorb water from the mortar and weaken the bond.
A-R 3. Assertion: Curing can be stopped just one day after laying mortar.
Reason: The cement–water reaction completes instantly when mortar is applied.
A-R 4. Assertion: Mortar and concrete are the same material.
Reason: Concrete contains gravel or crushed stone and is used to form load-bearing structures, while mortar binds materials.
A-R 5. Assertion: RCC construction is preferred for multi-storey, earthquake-resistant buildings.
Reason: In RCC, a frame of concrete-and-steel columns and beams carries the load to the ground.
Exam Tips & Common Mistakes
How to score full marks in this chapter
Learn the six structural elements with one-line functions and the clear difference between load-bearing and RCC construction. Memorise the key numbers — brick size 190 × 90 × 90 mm (200 × 100 × 100 mm for estimation), 500 bricks per m³ + 10% wastage, curing 14–28 days, plaster 12–15 mm, mortar ratio 1:3 for brick masonry. For “process chart” and “how to build” questions, always write the steps in the correct order and explain why the order matters. Always link each tool (plumb bob, spirit level, water level tube) to exactly what it checks.
Common mistakes to avoid
- Confusing beams (horizontal) with columns (vertical).
- Mixing up mortar (binds materials) and concrete (forms the structure, contains gravel).
- Writing that curing takes only a day or two — it must continue for 14–28 days.
- Forgetting to soak bricks before laying, which weakens the mortar bond.
- Saying the plumb bob checks horizontal level — it checks vertical; the spirit level checks level.
- Reordering the construction steps (e.g. plastering before curing the brickwork).
Frequently Asked Questions
What is Class 9 Skill Education Kaushal Vikas Chapter 6 about?
Chapter 6, Construction, from Unit II (Work with Machines and Materials) teaches the construction trade as a vocational skill — the basic elements of a building, load-bearing vs RCC construction, scoping work and process charts, technical drawings, selecting materials and tools, preparing a Bill of Materials, and building, curing, plastering, finishing and painting a small structure such as a ramp or boundary wall.
What is the difference between mortar and concrete?
Mortar is a mix of cement, sand and water (sometimes lime) used to bind materials such as bricks; it is more flexible. Concrete is a mix of cement, sand, water and gravel or crushed stone used to form the actual structure and support heavy weight; it hardens to a stone-like strength, and when reinforced with steel bars it is called RCC.
Why is curing important in construction?
Curing means keeping new construction wet for 14–28 days so the chemical reaction between cement and water completes and the materials bond strongly. If curing is stopped too early, the structure becomes weak and cracks may appear, reducing its strength.
Accuracy note: All exercise questions and headings are reproduced verbatim from the official NCERT Kaushal Vikas (Class 9 Skill Education) textbook, Chapter 6; all answers, notes, key terms, MCQs, Assertion–Reason items and FAQs are original and prepared for the 2026–27 session.