Grade 9 Science Chapter Notes on The Fundamental Unit of Life PDF

Summary

These are chapter notes for grade 9 science on the fundamental unit of life. The document covers cells, microscopes, and important cell organelles. Information on prokaryotic and eukaryotic cells, their structures, and functions is also included.

Full Transcript

Grade 09
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Science Chapter Notes
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BY
 'S
Chapter Notes
JU
The Fundamental Unit
of Life
BY

Class 09

121
 Topics to be
Covered

Introduction to Cell
1.1 Definition
1.2 Basic Characteristics of Cell
1.3 Cell Discovery
1.4 Cell Theory

Microscopes
2.1 Simple Microscope
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2.2 Compound Microscope
2.3 Parts of Compound Microscope
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Types of Cells
3.1 Prokaryotic Cell
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3.2 Eukaryotic Cell

Cells of Different Sizes and
Shapes

5 Basic Components of a
Eukaryotic Cell
5.1 Nucleus
5.2 Cytoplasm
5.3 Cell Membrane

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 Topics to be
Covered

6 Cell Membrane
6.1 Structure and Function
6.2 Permeability
6.3 Types of Transport: Active and
Passive

7 Cell Wall
7.1 Cell Wall in Plant Cell

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7.2 Cell Wall in other Organisms

Cells in Different Solutions
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8.1 Hypotonic Solution
8.2 Hypertonic Solution
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8.3 Isotonic Solution

9 Cell Organelles
9.1 Endoplasmic Reticulum
9.2 Golgi Body
9.3 Mitochondria
9.4 Chloroplast
9.5 Vacuole
9.6 Ribosome
9.7 Lysosome

10 Cell Division
10.1 Mitosis
10.2 Meiosis
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 Mind Map

Nucleus
Prokaryotic Eukaryotic Cell
Cytoplasm
Cell Cell Membrane

Cell
Types of Cells Components

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Cell:
The
Fundament
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al Unit of
Life

Cell Organelles Cell Division

Mitosis Meiosis

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 1. Introduction

1.1 Definition

A cell is defined as the smallest, basic unit of life that is
responsible for all of life's processes.
Cells are the structural, functional, and biological units of
all living beings.

1.2 Basic Characteristics of Cell
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A Typical Animal Cell

Stores hereditary information
Capable of reproducing
Acquires and utilises energy
Site of various bio-chemical reactions
Able to respond to stimuli

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1.3 Cell Discovery

Examined a thin slice of cork and
observed tiny compartments which
he called "cells"

Cork is obtained from the bark of a
tree and contains dead plant cells.
Robert Hooke

A Dutch lens maker who improved
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the design of microscopes.
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Observed the first living
cells and called them "animalcules"
Anton Van
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Leeuwenhoek

1.4 Cell Theory

The cell theory was given by Schleiden and Schwann,
which was later modified by Rudolf Virchow.

The three postulates of cell theory are:
✓ All living organisms are composed of one or more
cells.
✓ Cell is the basic structural and functional unit of living
organisms.
✓ All cells arise from pre-existing cells.
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 2. Microscopes
A microscope is an instrument that magnifies small objects,
thus revealing details too small to be seen by the naked eye.

2.1 Simple Microscope 2.2 Compound Microscope

A single lens 'SMultiple lenses
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Total magnification is Total magnification is product
limited to one lens of objective lens and eyepiece
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Used to magnify the size Used to magnify and
of small objects study micro-organisms

2.3 Parts of a Compound Microscope

Eyepiece

Adjustment Knob

Objective Lens

Glass Slide

Mirror/ Light
Source 127
 3. Types of Cells

Regardless of the complexity as well as type of organism,
cells are mainly divided into two categories.

Mentioned below are the distinctions between the 2 major
types of cells -

3.1 Prokaryotic 3.2 Eukaryotic
Cell Cell

Absent Present and
Nucleus
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Instead, they
have a nucleoid
surrounded by
a nuclear
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region in the cell membrane
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Size ranges from Size ranges from
Cell Size 0.2 μm - 2.0 μm 10 μm – 100 μm in
in diameter. diameter.

Ribosomes Present Present

Membrane-
bound cell Absent Present
organelles
Bacteria Plant
Examples
and Archaea and Animal cell

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 4. Cells of Different Sizes and Shapes

Cells of Different Sizes

Blue Whale’s Neuron

25 –30 m

Amoeba Mycoplasma Ostrich’s Egg

0.01- 0.1 mm
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0.0002 mm 130-170 mm
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Cells of Different Shapes
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Shape of a cell depends on the function of the cell.

Neuron Red Blood Cell Muscle Cell

Branched- To Biconcave Discs- Spindle Shaped-
connect with To maximise the To align properly
other neurons oxygen carrying & to contract &
capacity relax with ease

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5. Basic Components of a Eukaryotic Cell

5.1 Nucleus
Contains the hereditary material of
the cell, the DNA which is organised
as chromosomes
Controls growth and metabolic
activities of the cell
Surrounded by the nuclear envelope
that separates the DNA from the rest
of the cell

5.2 Cytoplasm
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Thick, jelly-like substance present
inside the cell membrane and
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external to the nuclear membrane
Mainly composed of water, salts,
proteins and suspended cell
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organelles
Site for most of the bio-chemical
reactions

5.3 Cell membrane

Flexible, living and selectively
permeable membrane
Outermost layer of the animal cells
Present in both plant and animal cell

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 6. Cell Membrane

Phospholipid Bilayer

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Transport Protein
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6.1 Structure and Functions
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Structure:
The cell membrane is made up of lipids and proteins.
Phospholipids are the main component of the cell
membrane, and they are arranged in 2 layers called
the phospholipid bilayer.
The lipid bilayer is embedded with proteins that help
in transport of certain substances.

Functions:
Encloses the components of the cell and protects it
Monitors what goes in and out of the cell

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6.2 Permeability

Selectively Freely
Impermeable
Permeable Permeable

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Selected
No Particles All Particles
Particles
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There are 3 types of membranes: impermeable, selectively
permeable and freely permeable.

Impermeable membrane:
No particles can move across the membrane.

Selectively permeable membrane:
Only selected molecules are allowed to cross the
membrane.

Freely permeable membrane:
All the molecules are allowed to pass through it without
any resistance.

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6.3 Types of Transport

Based on energy requirements, transportation of
molecules in living systems can be of two following types:

Active Transport Passive Transport

Movement of molecules Movement of molecules
across the membrane
against their
concentration gradient
'Sacross the membrane
down their concentration
gradient without the use
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by using cellular energy of energy.
in the form of ATP.
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Carrier proteins are Carrier proteins are not
required. required.

Large molecules and Molecules like oxygen and
ions need active carbon dioxide can pass
transport to cross through the membrane by
the membrane. passive transport.

Example- Uptake of Example- Diffusion of
minerals and ions by plant gases in alveoli
roots

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 7. Cell Wall

7.1 Cell Wall in Plant Cell

The outermost layer in
plant cells

Responsible for
maintaining the rigid
structure and providing
mechanical strength to the
plant cell

Cell Wall 'S
Composed of cellulose
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7.2 Cell Wall in other Organisms
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Fungi Algae Bacteria

Chitin Cellulose Peptidoglycan

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 8. Cell in Different Solutions

8.1 Hypotonic Solution

If the medium surrounding the
cell has a higher water
concentration than the cell,
meaning that the outside solution
is very dilute, the cell will gain
water by osmosis.

8.2 Hypertonic Solution 'S
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If the medium has a lower
concentration of water than the
cell, meaning it is a very
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concentrated solution, the cell will
lose water by osmosis.

8.3 Isotonic Solution

If the medium has exactly same
water concentration as the cell,
there will be no net movement of
water across the cell membrane.

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 9. Cell Organelles

An organelle is a subcellular structure that has one or more
specific jobs to perform in the cell, much like an organ does
in the body.

9.1 Endoplasmic Reticulum 9.2 Golgi Body

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Transportation system of Consists of smooth
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eukaryotic cell flattened membrane-
RER bound, sac-like
Ribosomes attached to structures called
its membrane. cisternae
Synthesis proteins and Packages materials
enzymes synthesised in the cell
SER and transports it
Ribosomes are not Involved in the
attached to its formation of
membrane. lysosomes
Synthesises lipids and
steroids

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 9.3 Mitochondria 9.4 Chloroplast

Structure: Structure:

Double-membrane
organelle found in
eukaryotic cell
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Double-membrane
organelle found in all
higher plants
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Contains smooth outer Contains grana which
membrane and an inner are stacks of disc-
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membrane with shaped structures
infoldings called cristae known as thylakoids

Has its own DNA and Stroma is
ribosomes to make the homogenous
proteins matrix which contains
grana, various enzymes,
DNA, and ribosomes.

Function: Function:
Helps to generate energy Site of
in the form of ATP photosynthesis in
plants

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 9.5 Vacuole
Plant Cell Animal Cell

Vacuole

Membrane-bound cell organelle present in the
cytoplasm and filled with a watery fluid containing
various substances
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In plant cells, vacuoles store food, water and excretory
products. As vacuoles are full of the cell sap, they
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provide turgidity and rigidity to the cell.
Animal cells contain one or more vacuoles, and their
size is relatively smaller as compared to the plant cell
vacuole.
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9.6 Ribosome 9.7 Lysosome

Site of protein synthesis Contains hydrolytic
In prokaryotic cell enzymes that break
ribosomes are found in down complex molecules
the cytoplasm. into simpler ones
In eukaryotic cell Performs digestion of
ribosomes are found as foreign bodies, breaks
particles attached to down a damaged
RER and suspended in organelle and disposes
the cytoplasm. off toxic wastes out of the
cell
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 10. Cell Division

10.1 Mitosis

2n Mitosis occurs in
Parent
somatic cells
Cell Only one nuclear
division occurs
Results in two
diploid daughter
2n Daughter 2n cells
Cells
Chromosome
'S number remains
same
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10.2 Meiosis
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Parent
2n Cell Meiosis occurs in
1st
germ cells
Nuclear
Division
Two nuclear
divisions occur
2n 2n
2nd Results in four
Nuclear haploid daughter
Division cells
Chromosome
number
is reduced to half
n n n n
Daughter Cells
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