Science

Science 10

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Course Description

This course helps the students to understand the chemical reaction and equation, periodic classification of element, how to organisms reproduce, and the sources of energy. Topics covered in this course include: balancing chemical equations, acids and bases, extraction of metals, carbon and its compounds, transportation in plants, heredity and evolution, reflection and refraction of light, magnetic effects of electric current, and the management of natural resources.

What you’ll learn
  • Chemical reaction and Equation
  • Acids and Bases
  • Metals and Non-metals
  • Carbon and Its compounds
  • Periodic Classification of element
  • Life process
  • Control and cordination
  • How do organisms reproduce
  • Heredity and Evolution
  • Light_Reflection and Refraction
  • The Human Eye and colourful world
  • Electricity
  • Magnetic Effects of Electric Current
  • Source of energy
  • Our Environment
  • Management of natural resources
1.1: Balanced Chemical Equations  

02:32

2.1: Chemical Changes  

02:15

3.1: Combination Reactions  

01:24

4.1: Corrosion  

01:46

5.1: Decomposition reaction  

03:57

6.1: Displacement Reaction  

02:06

7.1: Oxidation and Reduction  

02:25

8.1: Rancidity  

00:45

1.1: Acids and Bases in the Laboratory  

02:28

2.1: Acids and Bases  

01:23

3.1: Action of Acids or Bases in Water solution  

00:53

4.1: Baking Soda  

01:18

5.1: Bleaching Powder  

00:34

6.1: Do all Acids and Bases produce hydrogen ions  

00:39

7.1: Importance of pH in Everyday Life  

02:53

8.1: Neutralization Reaction  

01:03

9.1: pH  

01:18

10.1: Plaster of Paris  

01:15

11.1: Reaction of Acids and Bases with Metals  

00:59

12.1: Reaction of Metal Carbonate and Metal Bicarbonate with Acids  

01:11

13.1: Reaction of Metallic Oxides with Acids  

00:32

14.1: Sodium hydroxide  

01:25

15.1: The Arrhenius Theory  

00:29

16.1: The Bronsted–Lowry Acid–Base Theory  

00:49

17.1: Washing soda  

00:58

18.1: Water of Crystallization  

00:58

1.1: Conditions Necessary for the Rusting of Iron  

00:59

2.1: Corrosion  

03:14

3.1: Electricity Conduction in Ionic Compounds - I  

00:38

4.1: Electricity Conduction in Ionic Compounds – II  

00:29

5.1: Electrolytic Refining of Metals  

01:16

6.1: Extraction of metals at the top of the activity series  

00:35

7.1: Extraction of metals in the middle of the activity series  

00:53

8.1: Extraction of metals low in the activity series  

00:47

9.1: Ionic Compounds  

01:15

10.1: Melting Points and Boiling Points of Ionic Compounds  

00:36

11.1: Occurrence of metals  

00:30

12.1: Physical Properties of metals  

02:41

13.1: Physical properties of non-metals  

00:40

14.1: Properties of Ionic Compounds  

01:02

15.1: Reaction of Metals and Non-metals with Air  

01:43

16.1: Reaction of metals with Acids  

00:44

17.1: Reaction of Metals with Solutions of other Metal Salts  

00:50

18.1: Reaction of Metals with Water - I  

00:32

19.1: Reaction of Metals with Water - II  

00:41

20.1: Solubility of Ionic Compounds  

00:37

21.1: Thermit reactions  

00:36

1.1: Acetic Acid is a Weak Acid  

00:29

2.1: Addition reaction  

00:13

3.1: Allotropes of carbon  

02:25

4.1: Classification of hydrocarbons  

00:43

5.1: Combustion Reaction  

01:29

6.1: Covalent bond  

02:21

7.1: Detergents  

01:09

8.1: Esterification  

00:48

9.1: Ethanoic Acid  

00:33

10.1: Ethanol  

01:12

11.1: Functional Group  

00:44

12.1: Homologous Series  

02:00

13.1: Isomerism  

00:57

14.1: IUPAC Name of Chlorine Compounds  

00:47

15.1: Lewis dotted Structure of Hydrocarbon  

01:52

16.1: Naming of Hydrocarbon  

02:39

17.1: Oxidation Reaction of Ethanol  

00:45

18.1: Reaction of Ethanoic Acid with Carbonates and Hydrogen carbonates  

00:42

19.1: Saponification  

00:25

20.1: Soap  

01:43

21.1: Substitution reaction  

00:28

22.1: Tetravalency of Carbon  

01:37

23.1: Versatile Nature Of Carbon  

01:18

1.1: Atomic size ( Radius of the atom)  

00:33

2.1: Dobereiner’s Triads Law  

01:16

3.1: Mendeleev’s Periodic law  

02:17

4.1: Modern Periodic law  

00:18

5.1: Newland’s octaves  

01:04

6.1: Valence electrons and Valency  

01:18

1.1: Activity to show that carbon dioxide is necessary for photosynthesis  

01:10

2.1: Autotrophic Nutrition - I  

01:06

3.1: Autotrophic Nutrition - II  

00:45

4.1: Excretion in Human Beings  

01:55

5.1: Heterotrophic Nutrition - I  

01:28

6.1: Heterotrophic Nutrition - II  

01:07

7.1: Life Processes  

00:26

8.1: Nutrition  

00:44

9.1: Respiration - I  

01:30

10.1: Respiration - II  

01:15

11.1: Test for salivary amylase-  

00:51

12.1: Test for starch  

01:19

13.1: Transportation - I  

01:03

14.1: Transportation in plants  

00:55

1.1: Central nervous system  

01:22

2.1: Control and Coordination  

01:03

3.1: Coordination in Plant - I  

00:42

4.1: Coordination in Plant - II  

00:51

5.1: Feedback mechanism of hormones in Animal  

01:42

6.1: Hormones in Animals  

01:29

7.1: Human brain  

00:47

8.1: Movement in Plants  

01:18

9.1: Reflex Action  

00:47

1.1: Asexual Reproduction - Budding  

00:40

2.1: Asexual Reproduction - Fission  

00:35

3.1: Asexual Reproduction - Fragmentation  

00:57

4.1: Asexual Reproduction - Spore formation  

00:47

5.1: Female reproductive system  

01:28

6.1: Fertilization in Plants  

01:22

7.1: Fossils and Evolution by Stages  

02:28

8.1: How do organisms reproduce  

00:45

9.1: Introduction to Sexual Reproduction  

00:33

10.1: Male reproductive system  

01:14

11.1: Reproduction in human beings  

00:32

12.1: Sexual reproduction in plants  

01:01

13.1: Vegetative Propagation  

00:58

1.1: Accumulation of variation during reproduction  

01:15

2.1: Acquired and Inherited Traits  

02:05

3.1: Evolution and Classification  

01:45

4.1: Evolution and progress  

01:33

5.1: Evolution  

02:32

6.1: Expression of traits  

02:47

7.1: Inherited Traits  

02:22

8.1: Sex Determination  

01:28

9.1: Speciation  

01:13

1.1: Image formation by a Convex Mirror  

01:00

2.1: Image Formed by a Plane Mirror  

00:31

3.1: Image Formed by Concave Mirror  

00:57

4.1: Images formed by concave lens  

00:28

5.1: Images formed by convex lens  

01:05

6.1: Reflection of Light  

00:35

7.1: Refraction of Light through a Rectangular Glass Slab  

01:45

8.1: Refraction  

01:30

9.1: Representation of Images Formed by Spherical Mirrors Using Ray Diagrams  

01:18

10.1: Rules of Image formation  

00:47

11.1: Sign convention for spherical lenses  

01:18

12.1: Sign Convention, Notations, Mirror Formula and Magnification  

01:24

13.1: Spherical lenses  

00:50

14.1: Spherical mirror  

02:39

1.1: Advance sunrise and delayed sunset  

00:33

2.1: Colour of the Sun at Sunrise and Sunset  

02:28

3.1: Defects of vision and their correction  

03:07

4.1: Dispersion of white light by a glass prism  

01:34

5.1: Power of Accommodation of Eye  

00:55

6.1: Refraction of light through a prism  

02:33

7.1: The Human Eyes  

01:18

8.1: The Rainbow  

00:51

9.1: Twinkling of stars  

00:59

10.1: Tyndall Effect  

00:28

11.1: Why is the colour of the clear Sky Blue  

00:41

1.1: Electric current and circuit  

01:14

2.1: Electric potential and potential difference  

01:35

3.1: Electrical Power  

01:24

4.1: Factors on which the resistence of a conductor depends  

02:36

5.1: Heating effect of electric current  

03:30

6.1: Ohm's Law  

00:57

7.1: Resistance of a System of Resistors in Parallel  

02:38

8.1: Resistence of a system of resisters in series  

03:46

9.1: Resistence  

01:43

1.1: Electric generator  

02:49

2.1: Electric motor  

02:50

3.1: Electromagnetic Induction  

03:45

4.1: Fleming’s Right Hand Rule  

00:30

5.1: Force on a current-carrying conductor in a magnetic field  

01:43

6.1: Magnetic Effects of Electric Current  

01:02

7.1: Magnetic field and field lines  

02:08

8.1: Magnetic Field due to a Current in a Solenoid  

01:20

9.1: Magnetic field due to a current through a circular loop  

00:58

10.1: Magnetic Field due to a Current through a Straight Conductor  

01:51

11.1: Magnetic field due to a current-carrying conductor  

01:03

12.1: Right-Hand Thumb Rule  

00:40

1.1: Biomass energy  

01:14

2.1: Energy from the Sea  

01:16

3.1: Fossil Fuels  

01:00

4.1: Geothermal energy  

00:31

5.1: Hydro power plants  

01:11

6.1: Nuclear Energy  

01:10

7.1: Solar energy  

02:01

8.1: Sources of Energy  

00:53

9.1: thermal power plants  

01:21

10.1: Wind energy  

01:00

1.1: Biological magnification  

01:14

2.1: Ecosystem and its Components  

02:03

3.1: Environment and waste  

01:13

4.1: Food Chain  

01:19

5.1: Food Web  

00:46

6.1: Ozone layer depletion  

01:39

1.1: Conservation of Water Resources - I  

00:47

2.1: Conservation of Water Resources - II  

00:43

3.1: Forests as Wild Life - I  

00:48

4.1: Forests as Wild Life - II  

01:07

5.1: Management of coal and petroleum  

01:17

6.1: Management of Natural Resources - I  

00:54

7.1: Management of Natural Resources - II  

01:09

8.1: Water Harvesting  

01:30

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This course includes
  • Units 16
  • Lessons 191
  • Expiry Date Full lifetime access
  • Language English
  • Last Updated Nov 08 2022

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