What is the difference between prokaryotic and eukaryotic cells?

Prokaryotic cells (e.g. bacteria) are small (1–10 µm), have no true nucleus or membrane-bound organelles and divide by binary fission. Eukaryotic cells (plant, animal, fungi) are larger (10–100 µm), have a true nucleus and organelles, and divide by mitosis or meiosis.

What is prokaryotes, eukaryotes & cell division in Class 9 Science (CBSE/NCERT)?

Prokaryotes, Eukaryotes & Cell Division is a key topic in NCERT Class 9 Science Chapter 2 u2014 Cell: The Building Block of Life. It explains differences between prokaryotic and eukaryotic cells, and the processes of mitosis and meiosis.

Why is prokaryote important in NCERT Class 9 Science?

Prokaryote is important because it forms the foundation for understanding prokaryotes, eukaryotes & cell division in Chapter 2. Without a clear idea of prokaryote, students cannot answer higher-order CBSE questions involving eukaryote, nucleoid and true nucleus.

How is prokaryotes, eukaryotes & cell division tested in the Class 9 Science CBSE exam?

CBSE Class 9 tests this through 1-mark MCQs, 2-mark short answers, 3-mark explanations, 5-mark descriptive questions and 4-mark competency-based questions on prokaryote, eukaryote and nucleoid drawn from NCERT activities.

What are the key terms to remember for prokaryotes, eukaryotes & cell division in Class 9 Science?

Key terms: prokaryote, eukaryote, nucleoid, true nucleus, cell division, mitosis. Each carries exam weightage and regularly appears in the CBSE Class 9 paper.

Is Prokaryotes, Eukaryotes & Cell Division included in the Class 9 Science syllabus for 2025u201326 CBSE?

Yes, Prokaryotes, Eukaryotes & Cell Division is part of the NCERT Class 9 Science syllabus (2025u201326) under the new NCERT Exploration textbook. It falls under Chapter 2 and is examined in the annual paper.

How should I prepare prokaryotes, eukaryotes & cell division for the CBSE Class 9 Science exam?

Prepare in three steps. First, read this NCERT part highlighting definitions of prokaryote, eukaryote and nucleoid. Second, solve every in-text and end-of-chapter question. Third, practise competency-based and assertion-reason questions to sharpen reasoning.

What is prokaryotes, eukaryotes & cell division in Class 9 Science (CBSE/NCERT)?

Prokaryotes, Eukaryotes & Cell Division is a key topic in NCERT Class 9 Science Chapter 2 — Cell: The Building Block of Life. It explains differences between prokaryotic and eukaryotic cells, and the processes of mitosis and meiosis. Core ideas covered include prokaryote, eukaryote, nucleoid, true nucleus. Mastering this subtopic is essential for scoring well in the CBSE Class 9 Science exam and for building a strong foundation for the Class 10 board exam, because these concepts repeatedly appear in MCQs, short answers and long-answer questions. This part gives a complete, exam-ready explanation with activities, diagrams and competency-based practice aligned to NCERT.

Why is prokaryote important in NCERT Class 9 Science?

Prokaryote is important in NCERT Class 9 Science because it forms the foundation for understanding prokaryotes, eukaryotes & cell division in Chapter 2 — Cell: The Building Block of Life. Without a clear idea of prokaryote, students cannot answer higher-order CBSE questions involving eukaryote, nucleoid, true nucleus. School and competitive papers regularly include 2-mark and 3-mark questions on this concept, and competency-based questions often link prokaryote to real-life situations. Building clarity here pays off directly in marks at Class 9 and again in the Class 10 board exam.

How is prokaryotes, eukaryotes & cell division tested in the Class 9 Science CBSE exam?

The CBSE Class 9 Science exam tests prokaryotes, eukaryotes & cell division through a mix of 1-mark MCQs, 2-mark short answers, 3-mark explanations with examples, 5-mark descriptive questions (often with diagrams or derivations) and 4-mark competency-based questions. Expect direct questions on prokaryote, eukaryote, nucleoid and application-based questions drawn from NCERT activities. Students who follow the NCERT Exploration textbook thoroughly and practise this chapter's questions consistently score in the 90%+ range.

What are the key terms to remember for prokaryotes, eukaryotes & cell division in Class 9 Science?

The key terms to remember for prokaryotes, eukaryotes & cell division in NCERT Class 9 Science Chapter 2 are: prokaryote, eukaryote, nucleoid, true nucleus, cell division, mitosis. Each of these concepts carries exam weightage and regularly appears in the CBSE Class 9 paper. Write clear one-line definitions of every term in your revision notes and revisit them before the exam. Linking these terms visually through a flowchart or concept map makes recall easier during the Class 9 Science exam.

Is Prokaryotes, Eukaryotes & Cell Division included in the Class 9 Science syllabus for 2025–26 CBSE?

Yes, Prokaryotes, Eukaryotes & Cell Division is part of the NCERT Class 9 Science syllabus (2025–26) prescribed by CBSE under the new NCERT Exploration textbook. It falls under Chapter 2 — Cell: The Building Block of Life — and is examined in the annual paper. The current syllabus retains the full treatment of prokaryote, eukaryote, nucleoid as per the NCERT textbook. Because CBSE bases every Class 9 question on NCERT, studying this part thoroughly ensures complete syllabus coverage and guarantees marks from this chapter.

How should I prepare prokaryotes, eukaryotes & cell division for the CBSE Class 9 Science exam?

Prepare prokaryotes, eukaryotes & cell division for the CBSE Class 9 Science exam in three steps. First, read this NCERT part carefully, highlighting definitions and diagrams of prokaryote, eukaryote, nucleoid. Second, solve every in-text question and end-of-chapter exercise — CBSE questions often come directly from NCERT. Third, practise competency-based and assertion-reason questions to sharpen reasoning. Write answers in the exam-style format (point-wise with diagrams) and time yourself. This method delivers confidence and full marks in the exam.

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Prokaryotes, Eukaryotes and Cell Division

🎓 Class 9 Science CBSE Theory Ch 2 — Cell: The Building Block of Life ⏱ ~11 min

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Prokaryotes, Eukaryotes and Cell Division

Class 9 Science · Chapter 2 · Part 3 — Cell Types, Comparisons & Cell Division

2.18 Two Great Categories: Prokaryotes and Eukaryotes

All cells fall into one of two big groups depending on whether they have a true nucleus or not.

🦠 Prokaryote vs Eukaryote — Click to compare strengths and limits L4 Analyse

Click each cell type to weigh how its design serves its lifestyle. Which one wins on speed of division? Which one wins on complexity?

Fig. 2.5 — Prokaryotic cell (left) has no membrane-bound nucleus; eukaryotic cell (right) does.

Click either cell above to see how its simpler or more complex design becomes a strength or a limit.

Feature	Prokaryotic Cell	Eukaryotic Cell
Size	Very small (1–10 µm)	Larger (10–100 µm)
Nucleus	Absent — DNA lies free in nucleoid	True nucleus with nuclear membrane
Membrane-bound organelles	Absent	Present (mitochondria, ER, Golgi, etc.)
Ribosomes	Smaller (70S)	Larger (80S)
Cell division	Binary fission	Mitosis / Meiosis
Examples	Bacteria, blue-green algae	Plants, animals, fungi, protists

2.19 Plant Cell vs Animal Cell

Fig. 2.6 — Plant cell vs animal cell.

Feature	Plant Cell	Animal Cell
Cell wall	Present (cellulose)	Absent
Plastids	Present (chloroplasts)	Absent
Vacuole	One large central vacuole	Small or absent
Centrosome	Absent	Present (helps in division)
Shape	Fixed, rectangular	Variable, often round
Mode of nutrition	Autotrophic (makes own food)	Heterotrophic (eats food)

2.20 Unicellular vs Multicellular Organisms

Some organisms manage their entire life with just one cell. Such unicellular organisms include amoeba, paramoecium, yeast, and most bacteria. That single cell does everything: feeding, breathing, moving, reproducing.

Multicellular organisms — like rose plants, mango trees, frogs, humans — are made of millions or trillions of cells. Different groups of cells specialise in different tasks: muscle cells contract, nerve cells carry signals, root hair cells absorb water. This division of work is called division of labour.

2.21 Cell Division

How does a single fertilised egg grow into a complete baby with trillions of cells? How do you heal a cut on your finger? The answer lies in cell division — the process by which a parent cell produces new daughter cells. Two types of cell division occur in eukaryotes: mitosis and meiosis.

Mitosis — the basic divider

Mitosis happens in all somatic (body) cells. It produces two daughter cells, each with the same number of chromosomes as the parent cell. Mitosis is responsible for:

Growth of the body
Replacement of dead/damaged cells (e.g., wound healing)
Asexual reproduction in organisms like Hydra

Fig. 2.7 — Stages of mitosis (simplified).

Meiosis — making gametes

Meiosis happens only in the reproductive organs (ovaries, testes, anthers). It produces gametes (sperm and egg, or pollen and ovule). The most important point: meiosis halves the chromosome number, so when the gametes fuse during fertilisation the offspring gets back the original number.

Quick comparison:

Mitosis	Meiosis
Body cells	Reproductive cells
2 daughter cells	4 daughter cells
Chromosome number stays same	Chromosome number halved
For growth and repair	For sexual reproduction

2.22 When Cell Division Goes Wrong — Cancer

Cancer: Normally, cells divide only when needed and stop when enough cells are made. Sometimes a mutation in the DNA causes cells to divide uncontrollably, forming an abnormal mass called a tumour. If the tumour grows aggressively and spreads to other parts of the body (metastasis), it is called cancer. Cancer is a disease of uncontrolled cell division.

Activity 2.5 — Onion peel meets salt waterL3 Apply

Predict:

If you mount an onion peel on a slide and add a drop of strong salt solution, what do you think will happen to the cells?

Peel a thin layer from an onion bulb and mount it on a glass slide with a drop of water.
Stain with iodine. Observe the rectangular cells with their nuclei.
Replace water with strong salt solution. Observe again after 5 minutes.

Water moves out of the onion cells (exosmosis) into the salt solution. The cytoplasm shrinks and pulls away from the rigid cell wall. This shrinkage is called plasmolysis and confirms that the cell membrane is selectively permeable.

Competency-Based Questions

Scenario: While preparing slides in the school lab, Aman observed three samples under the microscope: (i) a bacterial smear from yoghurt, (ii) onion peel cells, and (iii) human cheek cells. He noticed the bacteria had no visible nucleus, while the other two clearly did. He also noticed that only the onion cells had a thick wall.

Q1. Bacteria are classified as ____________. L1

(a) prokaryotes
(b) eukaryotes
(c) protozoa
(d) fungi

(a) prokaryotes — they lack a true membrane-bound nucleus.

Q2. Why are onion cells rectangular while human cheek cells are roundish? L3

Onion cells (plant cells) have a rigid cellulose cell wall that gives them a fixed rectangular shape. Animal cells like cheek cells have only a flexible plasma membrane, so they take a roundish, irregular shape.

Q3. State true or false: Mitosis halves the number of chromosomes in the daughter cells. L1

False. Mitosis keeps the chromosome number the same. Meiosis halves it.

Q4. A wound on Aman's finger heals within a week. Which type of cell division is responsible? L2

Mitosis. Skin cells around the wound divide repeatedly, producing identical daughter cells that replace the damaged ones.

Q5. Explain how cancer is related to cell division. L4

In normal cells, division is tightly controlled — cells divide only when needed and stop when enough are produced. In cancer cells, this control mechanism breaks down due to mutations in the DNA. The cells keep dividing uncontrollably, forming a tumour that may invade nearby tissues and even spread to distant organs (metastasis).

Assertion–Reason Questions

Choose: (A) Both true, R explains A. (B) Both true, R does not explain A. (C) A true, R false. (D) A false, R true.

A: Plant cells have a fixed shape.

R: Plant cells possess a rigid cellulose cell wall outside the plasma membrane.

(A) — Both true; R is the correct explanation of A.

A: Meiosis is essential for sexual reproduction.

R: Meiosis doubles the number of chromosomes in gametes.

(C) — A is true, but R is false. Meiosis halves the chromosome number so that fertilisation can restore the original number.

A: Cancer is a disease of uncontrolled cell division.

R: Mutations in DNA can disturb the regulation of cell division.

(A) — Both true and R correctly explains A.

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