Chapter 7: Factors of Production Class 8th Social Science (Exploring Society: India and Beyond) ncert solution

Factors of Production — Chapter 7 Solutions
CH 07 Exploring Society: India and Beyond — Grade 8, Part 1

Factors of Production

Complete, direct answers to every in-text activity and end-of-chapter question — Let’s Explore, Think About It, and the full Questions & Activities set.

“For a country like India, the largest contribution to growth and productivity will probably come about from more efficiently using land, labour and capital, thus they must be used more efficiently.” — Bibek Debroy, Chairman, Economic Advisory Council to the Prime Minister (2017–24)
LAND LABOUR CAPITAL ENTREPRENEURSHIP TECHNOLOGY
Chapter Opener

The Big Questions

1
Big Question
What are the factors of production?

The factors of production are the resources or inputs used to produce goods and services. In economics, they are classified into four core types:

  • Land — geographical land and all natural resources (soil, forests, water, air, sunlight, minerals, oil, natural gas).
  • Labour — the physical and mental effort people put into work.
  • Capital — money plus human-made resources such as machinery, tools, equipment, vehicles, and buildings.
  • Entrepreneurship — the ability to identify a problem, take risks, and combine the other three factors to run a business.

Technology sits alongside these as a facilitator — it is not counted as a separate factor in the strict four-part classification, but it enables businesses to produce more output using the same or fewer inputs.

Land Labour Capital Entrepreneurship Technology (enabler)
2
Big Question
How are these factors interconnected?

No single factor can produce goods or services alone — they complement each other, and the proportion in which each is used depends on the product being made:

  • Agriculture, construction, and handicrafts rely heavily on labour, so they are labour-intensive.
  • Making semiconductor chips or satellites needs a lot of specialised machinery and money, so they are capital-intensive.

If any one factor is missing or misused, production becomes inefficient or can stop altogether. At the same time, new techniques can shift the balance between factors — for instance, greater machine use in farming reduces dependence on labour, and 3-D printing can revive declining handloom art forms by scaling up production. Because inputs are often located in different places, businesses also depend on a supply chain — a network of people, organisations, and technology — to bring land, labour, capital, and raw materials together. A disruption anywhere in this chain (as happened during the COVID-19 pandemic) can halt production.

3
Big Question
What is the role of human capital in production, and what are its facilitators?

Human capital is not the same as labour. Labour is the basic physical and mental effort a person puts into work, while human capital is the specialised skills, knowledge, abilities, and expertise that make that labour more productive and efficient. A trained chemical engineer and an untrained helper both supply “labour,” but the engineer brings far more human capital to the job.

Human capital determines how much value a worker can create, and it is built up through several facilitators:

  • Education and training — schooling gives foundational knowledge; hands-on training (observing worksites, testing materials, practising skills) turns that knowledge into applied ability.
  • Healthcare — good health supports cognitive development in children and lets workers perform at their best, physically and mentally, without losing time to illness.
  • Social and cultural influences — values like discipline, punctuality, and continuous improvement (for example, Japan’s kaizen culture or the German work ethic) shape how effectively people apply their skills.
In-Text

Let’s Explore & Think About It

LE1
Let’s Explore — Page 165
Study the economic activities around your locality, then answer: Where do people get money for their business? Where did the hairdresser get trained? Who taught the food vendors to cook? What motivated the business owners to start their business?

A sample locality report (like Latha, Asha, Mohan, and Kiran’s) would list shop types, how many exist nearby, what they produce, and the inputs each needs:

Type of shopGoods/servicesKey inputs required
Grocery shopFood grains, milk, breadPackaged goods, storage space
Restaurant/food stallCooked meals, snacksRaw ingredients, gas, utensils, cook
Vegetable vendorFresh produceBaskets, weighing scale, stall
Mobile repair shopRepairs, accessoriesTools, spare parts, technical skill
Salon/parlourHaircuts, groomingScissors, products, water, electricity

Answering the four questions

  • Where does the money come from? Mostly personal savings, and support from family and friends. When these aren’t enough, owners take a loan from a bank or another lender, paying interest on it over time — exactly how Ratna funded Pause Point.
  • Where did the hairdresser train? Typically through a vocational or beauty-training institute, an apprenticeship under an experienced salon owner, or a government skilling programme.
  • Who taught the food vendors to cook? Usually family members (recipes passed down at home), on-the-job experience working in another kitchen, or a culinary training course.
  • What motivated the owners? Common motivations include the desire for financial independence, spotting an unmet need in the neighbourhood, inheriting a family trade, or simply a passion for the craft (cooking, styling, repairing).
LE2
Let’s Explore — Page 166
Revisit the table in your report. Which of the items on your list can be labelled as ‘land’?

‘Land’ in economics means geographical land plus all natural resources — soil, water, minerals, sunlight, air, and so on — not man-made items. From the locality table above, the inputs that count as land are:

  • The fresh produce (vegetables and fruits) sold by vendors — these come directly from agricultural land and natural growth.
  • The food grains and raw ingredients used by grocery shops and restaurants — sourced from farmland.
  • The physical plot or shop space the business stands on.
  • Natural inputs like water used by salons and restaurants.

Items like baskets, scissors, tools, weighing scales, or a cook’s skill are not land — they fall under capital or labour instead.

TAI1
Think About It — Page 168
How do infrastructure and healthcare systems like hospitals, primary healthcare centres, doctors, pharmacies, diagnostic labs, etc., contribute to developing human capital?

Healthcare infrastructure builds human capital indirectly but powerfully:

  • Reduces lost time: Nearby clinics and pharmacies mean illnesses are treated quickly, so workers and students miss fewer days at work or school.
  • Supports cognitive development: Good maternal and child healthcare (regular check-ups, vaccination, nutrition advice) helps children grow up with stronger cognitive ability, which improves how well they learn later.
  • Enables physical and mental performance: Diagnostic labs and doctors allow health problems to be caught early, so workers stay physically fit and mentally alert enough to be productive and creative.
  • Attracts and retains skilled people: Regions with good hospitals and primary health centres find it easier to attract trained professionals (teachers, engineers, technicians) to live and work there, further building the local human capital pool.

In short, a population that is healthy can attend school regularly, train consistently, and work at full capacity — which is exactly what human capital depends on.

LE3
Let’s Explore — Page 169
Ask 10 working adults to describe the culture at their workplace — what adjectives occur most? Also, what factors enabled the creators of India’s Tapestry-era art and architecture to achieve such high levels of excellence?

Workplace culture experiment — In most such surveys, adjectives that come up repeatedly include disciplined, collaborative, fast-paced, supportive, stressful, respectful, hierarchical, and flexible. The pattern usually shows that workplaces valuing punctuality, teamwork, and continuous learning (similar to the kaizen idea discussed in the chapter) tend to be described more positively by their employees.

Tapestry art and architecture — The excellence seen in India’s historic temples, sculptures, and paintings came from several combined factors:

  • Generational knowledge transfer — skills were passed down within families of artisans and sculptors over centuries.
  • Codified standards — texts like the śhilpa śhāstras gave exact specifications for proportions, postures, and materials, ensuring consistent quality.
  • A culture treating work as devotion — craftsmanship was seen as an offering, which encouraged patience and attention to detail rather than speed.
  • Patronage — royal and temple patronage provided the capital needed to sustain artisans over long construction periods.
TAI2
Think About It — Page 170
Shivay had to drop out of school two years back after his father lost his job. How will the loss of schooling years affect Shivay when he grows up? What problems could businesses face when they do not find workers with the required skills?
On Shivay
Losing two years of schooling reduces his human capital — he will likely have gaps in literacy, numeracy, and subject knowledge compared to peers who completed those grades. This can limit the kinds of jobs available to him later, often pushing him toward lower-skilled, lower-paying work, since many better-paying jobs require completed schooling or specific qualifications. It can also make it harder for him to access further training or higher education, creating a longer-term disadvantage even if his family’s circumstances later improve.
On businesses facing a skills shortage
When businesses cannot find workers with the required skills, they face a skill gap that can: slow down production or lower output quality; force them to spend extra money and time on training new hires; push up wages for the few skilled workers available, raising costs; and in some cases, prevent the business from adopting newer technology altogether because no one can operate it. At a larger scale, this also limits the extent to which a country can use its demographic dividend productively.
TAI3
Think About It — Page 170
Are some jobs more important than others? What would happen if nobody cleaned the streets, collected the trash, farmers stopped cultivating the crops, doctors were not available to treat patients, and so on?

Every job contributes to the smooth functioning of society, so it is more accurate to say that jobs are interdependent rather than ranked strictly by “importance.” Each role fills a need that, if unmet, disrupts everyone else:

  • If nobody cleaned the streets or collected trash, waste would pile up, leading to disease outbreaks and unhygienic living conditions for the entire community.
  • If farmers stopped cultivating crops, food supply would collapse, causing shortages and sharp price rises across the country.
  • If doctors were unavailable, even minor illnesses could turn fatal, and productivity would fall as sick workers cannot go to work.

This shows that so-called “everyday” jobs (sanitation workers, farmers) are just as essential to society’s wellbeing as high-status professions (doctors, engineers) — production and daily life depend on all of them working together.

LE4
Let’s Explore — Page 172
Why do you think the use of indigenous techniques (like stitched shipbuilding) has declined? Find techniques or products from your region that showcase human effort and skill.
Re-creation of a 5th-century stitched ship
Fig. 7.9 — Re-creation of a 5th-century stitched ship (from the textbook)

Why indigenous techniques declined

  • New technology outcompeted them: Nail-and-iron shipbuilding introduced by Europeans was faster, cheaper at scale, and better suited to larger vessels.
  • Loss of demand: As trade routes and colonial shipping systems changed, the market for traditionally built ships shrank.
  • Skill transmission broke down: As fewer people practised the craft, fewer masters remained to train the next generation, accelerating the decline.
  • Economic pressure: Modern methods usually need less time and labour per unit produced, making them more profitable for producers to adopt.

Example from a region — Local examples students might identify include: hand-loom weaving (e.g., Chanderi or Banarasi sarees), Channapatna wooden toys, Bidriware metalwork, terracotta pottery, or Kondapalli toys — all reflecting generations of specialised human skill (human capital) passed down without formal industrial training.

LE5
Let’s Explore — Page 173
Identify a factory in your region. Estimate how much capital may have been invested in constructing it. What kinds of equipment does it use to create its finished products?
Machinery in a factory and a bank building representing loans
Fig. 7.10–7.11 — Machinery (capital assets) and a bank (source of loan capital)

Take, for example, a nearby textile or food-processing factory. A reasonable student answer would estimate:

  • Land and building: cost of purchasing or leasing the plot and constructing the factory shed/office.
  • Machinery: looms, conveyor belts, packaging machines, refrigeration units, or assembly-line robots, depending on the product.
  • Working capital: money kept aside for raw materials, wages, and electricity bills until the finished goods are sold.

A small local factory might represent an investment of a few lakh to a few crore rupees, while a large industrial unit (like an automobile or electronics plant) can run into hundreds of crores — this capital typically comes from the owner’s savings, bank loans (on which interest is paid), or, for large companies, funds raised through the stock market.

TAI4
Think About It — Page 175
What could be the lessons for young entrepreneurs from J.R.D. Tata’s example? Does existing knowledge help solve problems, or must entrepreneurs seek other sources? Is profit the only motivation for an entrepreneur? What other personality traits are required to be a successful entrepreneur?
Portrait of J.R.D. Tata
Fig. 7.17 — J.R.D. Tata, entrepreneur, industrialist and philanthropist
Lessons from J.R.D. Tata
Vision matters as much as capital — he saw opportunity in aviation when it was untested in India. Businesses succeed long-term when they combine profit-making with genuine care for employees and society. Diversifying (steel, cars, power, chemicals) helps a business grow sustainably. Integrity, hard work, and long-term thinking build lasting institutions, not just short-term wealth.
Does existing knowledge alone solve problems?
Rarely by itself. Entrepreneurs typically combine their existing knowledge with new information — market research, expert advice, employees’ specialised skills, and continuous learning — because no single person has all the expertise a growing business needs.
Is profit the only motivation?
No. While profit keeps a business running and justifies the risk taken, many entrepreneurs (like J.R.D. Tata) are equally driven by the desire to solve a real problem, create jobs, build something lasting, or contribute to society through initiatives like Corporate Social Responsibility.
Other personality traits needed
Resilience in the face of failure, the ability to make quick decisions under uncertainty, adaptability to changing markets, strong communication and leadership to manage teams, and the discipline to manage limited resources carefully.
LE6
Let’s Explore — Page 178
Think of technological advancements that have impacted the lives of people and communities around you. Then design an invention of your own to solve a problem.
Drones spraying fertiliser and robots assisting surgery
Fig. 7.18–7.19 — Drones in agriculture and robotics in healthcare: technology as an enabler of production

Technological advancements around us — UPI has made cash almost unnecessary for daily payments; smartphones and low-cost internet have brought online classes and government portals like SWAYAM to remote areas; GPS-based apps help delivery workers and farmers plan routes and weather; and drone-based spraying has reduced the manual labour and health risk involved in applying fertiliser.

Sample invention idea

  • Name: “AquaAlert” — a low-cost water-leak sensor.
  • What it does: Clips onto household or community water pipes and sends a phone alert the moment it detects a leak, helping save water and repair costs.
  • How it works: A small flow sensor compares expected vs. actual water flow and triggers a buzzer/SMS alert when it senses continuous, unusual flow (a sign of leakage), using a simple microcontroller and battery.
  • Sketch idea: A small clip-on box wrapped around a pipe, with a status LED (green = normal, red = leak detected) and a tiny solar panel on top for charging.
End of Chapter

Questions and Activities

1
Exercise
How are the factors of production different from each other? What are the difficulties you faced in classifying the factors of production in the exercise given in-text?
FactorWhat it isExample
LandNatural resources, not made by peopleSoil, water, forests, minerals
LabourPhysical/mental human effortA carpenter’s or farmer’s work
CapitalMoney + human-made assetsMachinery, tools, factory buildings
EntrepreneurshipRisk-taking to organise the other factorsStarting and running a business

Common classification difficulties

  • Overlap between labour and human capital: a worker’s skill is hard to separate from their raw physical effort — is a chef’s “special recipe knowledge” labour or a form of capital they carry with them?
  • Ambiguous items: something like a “shop” could be classified as land (the physical space) or capital (an asset used for business), depending on how it’s viewed.
  • Processed inputs: items like packaged flour are partly land (the wheat) and partly capital/labour (processing, packaging) — making a single-category label tricky.
2
Exercise
How does human capital differ from physical capital?
Human capitalPhysical capital
What it isSkills, knowledge, expertise within peopleTangible, human-made assets
ExamplesA doctor’s training, a coder’s expertiseMachines, tools, factory buildings, vehicles
How it’s builtEducation, training, healthcare, experienceBought or built using money (investment)
DepreciationCan grow over time with practice; can also become outdatedWears out or becomes obsolete with use/age
TransferabilityStays with the person; cannot be soldCan be bought, sold, or leased

In short, physical capital is what a business owns; human capital is what its people know and can do. Both are essential, and they work together — skilled workers (human capital) are needed to operate machinery (physical capital) effectively.

3
Exercise
How do you think technology is changing how people develop their skills and knowledge?
Drones and robots representing modern technology
Fig. 7.18–7.19 — Modern technology reshaping skill-building

Technology has changed skill-building in several important ways:

  • Removes geographical barriers: Platforms like SWAYAM (Massive Open Online Courses) let a student in a remote village learn robotics or textile printing free of cost, without needing to relocate.
  • Self-paced learning: Online courses allow people to learn while working, at their own speed, rather than following a fixed classroom schedule.
  • Easier access to job opportunities: Portals like the National Career Service connect trained people directly with employers across sectors, from plumbing to accounting.
  • New skills required: As technology changes production methods (e.g., drones in farming, robots in surgery), people must continuously reskill to remain employable — learning is no longer a one-time event but an ongoing process.
4
Exercise
A skill is something you learn and practice to get better. If you could learn one skill today, what would it be and why?

This is a personal, open-ended question, so there is no single “correct” answer — a strong response names a specific skill and explains its value clearly. For example:

“I would like to learn coding, because it helps me build apps and websites that can solve everyday problems, and it is a skill in high demand across almost every industry today — from agriculture to healthcare to entertainment.”

A good answer should include: (1) the specific skill chosen, (2) why it interests you personally, and (3) how it could be useful in the future — whether for a career, for solving a problem you care about, or simply for personal growth.

5
Exercise
Do you think entrepreneurship is the ‘driving force’ of production? Why or why not?
Diagram: tasks performed by an entrepreneur
Fig. 7.16 — Tasks performed by an entrepreneur (from the textbook)

Yes — entrepreneurship can reasonably be called the driving force of production, because an entrepreneur is the one who:

  • Identifies a problem and commits to solving it with an innovative idea;
  • Combines land, labour, and capital into a working business — without an entrepreneur, these three factors would simply sit idle;
  • Takes the risk of investing money and time with no guarantee of success;
  • Makes the key decisions that determine how the business runs; and
  • Contributes to society through jobs and innovation.

Land, labour, and capital are all necessary, but they are essentially passive resources until someone organises them purposefully. That organising, risk-bearing role is what makes entrepreneurship distinct — it activates the other three factors. Some argue technology or capital are equally central, since without money or machines even the best idea cannot be executed — but the textbook’s view, and the reasoning above, supports entrepreneurship as the coordinating “driving force.”

6
Exercise
Can technology replace other factors like labour? Is this good or bad? Support your answer with the help of an example.

Yes, technology can replace or reduce dependence on labour in many production processes — for example, drones now spray fertiliser over farmland, a task that earlier needed many workers walking the fields manually (see Fig. 7.18). Similarly, robots assist in precise surgical procedures that once relied entirely on a larger human surgical team.

Is this good or bad? It is a mix of both, depending on perspective:

  • Positives: Higher efficiency and speed, reduced physical strain and risk for workers, lower long-term costs, and improved precision (fewer errors in surgery, more even fertiliser coverage).
  • Negatives: Workers who previously did that task may lose their jobs or need to be retrained for new roles, and the upfront cost of new technology can be too high for small businesses or farmers to afford.

The overall effect depends on whether the workforce is supported in developing new skills (human capital) to work alongside new technology rather than being displaced by it.

7
Exercise
How do education and skill training affect human capital? Can they substitute for each other, or do they complement each other?

Education builds broad, foundational knowledge (literacy, reasoning, subject understanding), while skill training builds the specific, applied ability needed to perform a particular job well (like a civil engineering student learning to test construction materials on-site). Both raise human capital, but in different ways.

They largely complement each other rather than substitute:

  • Education without training can leave a person with theoretical knowledge but no practical ability to apply it on the job.
  • Training without a basic education can limit how well a person understands the reasoning behind a task, or adapts to new situations and new technology.

The chapter’s own example makes this clear: a civil engineering student first learns the principles of design and materials in school (education), and then applies them through training — observing construction sites, testing materials, and following safety procedures. Neither step alone would prepare them fully for the job.

8
Exercise
Imagine you want to start a business that produces steel water bottles. What kind of inputs are needed? How would you obtain them? Suppose one of the factors is missing — what happens to your business operations?
Flow chart: process of mobile phone assembly, showing a similar multi-stage manufacturing process
Fig. 7.23 — A similar staged manufacturing flow (from the textbook’s mobile phone example) applies to steel bottle production

Inputs needed and how to obtain them

FactorWhat’s neededHow to obtain it
LandRaw material — stainless steel sheets/coils; a factory plotBuy from a steel supplier; purchase or lease land
LabourMachine operators, quality checkers, packersHire local workers; provide basic training
CapitalCutting, moulding, welding, and polishing machinery; money for rent and raw materialsPersonal savings, a bank loan, or investors
EntrepreneurshipBusiness plan, decision-making, risk-takingProvided by the founder(s) themselves
TechnologyAutomated moulding/welding equipment, quality-testing toolsPurchased or licensed from equipment manufacturers

Production stages (similar to the textbook’s phone example)

STEP 1
Design the bottle (capacity, shape, features) — R&D.
STEP 2
Acquire steel sheets and set up/rent the factory.
STEP 3
Cut, mould, weld, and polish the bottles using machinery.
STEP 4
Test each bottle for leaks and finish quality.
STEP 5
Package and distribute to retail stores.

If a factor goes missing

  • No steel (land/raw material): production simply cannot start.
  • No trained labour: machines can’t be operated safely, and defect rates rise.
  • No capital: machinery can’t be bought or rent can’t be paid, halting operations entirely.
  • No entrepreneurial decision-making: the business lacks direction, and resources may be used inefficiently even if all other inputs are present.

This confirms the chapter’s point: the factors are interconnected, and a shortfall in even one can stop or slow the entire production process.

9
Exercise
Interview an entrepreneur or founder to understand their motivation to start a business and the opportunities and challenges they saw. Create a questionnaire and share what you learned in a report.

This is a hands-on field activity — here is a ready-to-use questionnaire framework and a sample structure for the report:

Sample interview questionnaire

  1. What inspired you to start this business?
  2. How did you arrange the initial capital (savings, loan, family support)?
  3. What was the biggest challenge you faced in the first year?
  4. How did you find and train your first employees?
  5. What role has technology played in your business?
  6. What opportunities do you see for growth in the next five years?
  7. What advice would you give to a young person wanting to start a business?

Suggested report structure

  • Introduction: Name of the entrepreneur, business, and location.
  • Motivation: Summarise why they started the business.
  • Factors of production used: List their land, labour, capital, and technology inputs.
  • Challenges and opportunities: Key hurdles faced and how they were overcome.
  • Conclusion: What you personally learned from the interview.
10
Exercise — Think Like an Economist
If you were Ratna, what would you do in the following situations?
I. The rent for your space suddenly doubles
  • Raise prices? A small, gradual price increase can help cover the extra rent, but too sharp a rise risks losing price-sensitive highway travellers to competitors.
  • Look for a cheaper location? Worth exploring — but Pause Point’s location on the highway is likely central to its business (drawing in travellers), so moving could mean losing footfall even while saving on rent.
  • Effect on the business: Profit margins shrink unless costs are managed elsewhere — Ratna may need to negotiate the rent, trim less essential expenses, or slightly adjust her menu pricing to stay profitable.
II. One of your helpers quits suddenly
  • Can remaining workers manage? In the short term, the team may stretch to cover the workload, but service quality or speed could suffer, especially during busy hours.
  • Will you need a higher salary to attract a replacement? Likely yes, particularly if the role needs specific cooking or customer-service skill — offering a competitive wage helps fill the gap quickly and retain the new hire.
III. You receive a small loan to invest in better technology
  • Will it increase production or improve quality? Yes — for example, a better refrigeration unit reduces food spoilage, and a faster stove or kitchen equipment increases how many meals can be prepared per hour.
  • Will it help reach more customers? Potentially — for instance, adding a digital payment system (UPI) or online ordering could make Pause Point more convenient for travellers, drawing in more business.
IV. Another restaurant opens in the neighbourhood
  • How to attract and keep customers: Focus on what already works — Pause Point’s reputation for tasty, high-quality food — while adding small improvements like faster service or loyalty offers for regular highway travellers.
  • Improve service, reduce prices, or offer something new? A combination often works best: maintain quality, avoid a price war that could hurt margins, and introduce one or two new menu items or conveniences to stand out from the new competitor.
V. What government rules should change to improve ease of doing business?
  • Simpler licensing: A single-window system for food safety, shop registration, and tax licences, instead of multiple separate approvals.
  • Easier access to credit: Lower-interest loan schemes specifically for small and micro businesses like roadside restaurants.
  • Skill-training support: Government-backed, low-cost training programmes to help small business owners hire and upskill workers.
  • Reduced compliance burden: Fewer, clearer regulations so small entrepreneurs can spend more time running the business and less time on paperwork.
Factors of Production · Chapter 7 Solutions · Prepared for classroom reference

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