Topics
Heredity and Evolution
Life Processes in Living Organisms Part -1
- Living Organisms and Life Processes
- Living Organism and Energy Production
- Formation of ATP
- Energy Production in Living Organism
- Cell Division: an Essential Life Process
- Mitosis and Its Phases
- Phases of Mitosis: Karyokinesis (Division of Nucleus)
- Phases of Mitosis: Cytokinesis (Division of Cytoplasm)
- Significance of Mitosis
- Meiosis as a Reduction Division
- Stages of Meiosis: Meiosis I
- Stages of Meiosis: Meiosis II
- Significance of Meiosis
- Differences Between Mitosis and Meiosis
Life Processes in Living Organisms Part - 2
- Introduction to Life Processes in Living Organisms
- Reproduction
- Asexual Reproduction in Animal
- Fission
- Fragmentation
- Regeneration
- Budding
- Sporulation (Sporogenesis)
- Asexual Reproduction in Plant
- Budding
- Vegetative Reproduction
- Sexual Reproduction in Flowering Plants
- Sexual Reproduction in Animals
- Human Reproduction
- The Male Reproductive System
- The Female Reproductive System
- Gametogenesis
- Fertilization in Human
- Embryonic Development in Human
- Implantation in Human
- Pregnancy in Humans
- Placenta (Growth) in Human
- Parturition (Birth) in Human
- Menstrual Cycle (Ovarian Cycle)
- Reproduction and Modern Technology
- Reproductive Health
Environmental Management
- Our Needs and the Environment
- Ecosystem
- Relationship Between Environment and Ecosystem
- Environmental Balance
- Environmental Conservation
- Environmental Conservation and Biodiversity
- Classification of Threatened Species
Towards Green Energy
- Energy and Use of Energy
- Generation of Electrical Energy
- Power Plants Based on Thermal Energy
- Power Plants Based on Nuclear Energy
- Power Plants Based on Natural Gas
- Electric Energy Generation and Environment
- Electricity Generation using Hydroelectric Energy
- Electricity Generation using Wind Energy
- Electricity Generation using Solar Energy
Animal Classification
- Biological Classification
- Classification of Living Organisms
- History of Animal Classification
- Traditional Method of Animal Classification
- New Criteria for Basis of Classification
- Five Kingdom Classification
- Phylum: Porifera
- Kingdom Animalia
- Phylum: Cnidaria/Coelenterata
- Phylum: Platyhelminthes
- Phylum: Aschelminthes
- Phylum: Annelida
- Phylum: Arthropoda
- Phylum: Mollusca
- Phylum: Echinodermata
- Phylum: Hemichordata
- Chordata: Vertebrata
Introduction to Microbiology
- Microorganisms (Microbes) and Microbiology
- Applied Microbiology
- Industrial Microbiology
- Useful micro-organisms
Cell Biology and Biotechnology
- Cell Biology (Cytology)
- Stem Cells
- Organ Transplantation
- Organ and Body Donation
- Biotechnology
- Commercial Applications of Biotechnology
- Modern Agricultural Practices and Crop Improvement
- Important Stages in Agricultural Development
Social Health
- Social Health
- Factors Disturbing the Social Health
- Communication Media and Excessive Use of Modern Technology
- Stress Management
Disaster Management
- Disaster
- Effects of Disaster
- Nature and Scope of Disaster
- Disaster Management
- Classification of Disaster Management
- Disaster Management Cycle
- Structure of Disaster Management Authority
- First Aid and Emergency Action
- Mock Drill
Life's Internal Secrets
The Regulators of Life
- Coordination in Plants - Introduction
- Control and Co-ordination in Plants
- Human Nervous System
- Central Nervous System (CNS)
- Chemical Control
The Life Cycle
Mapping Our Genes
Striving for Better Environment 2
- Use of Efficient and Eco-friendly Technology
- Sustainable Use of Resources
- Enforcement of Acts, Laws and Policies
Understanding Metals and Non-Metals
Amazing World of Carbon Compounds
- Introduction
- Wind Turbine
- Wind Power
- Uses of Wind Energy
Introduction:
Wind energy comes from the movement of air, which we call wind. Wind is produced because the sun heats the earth's surface unevenly. Some places get hotter than others, which causes a difference in air pressure. Hot air rises, and cooler air moves in to take its place. This movement of air from high-pressure areas to low-pressure areas is what we call wind.
We can use this wind to produce energy. When wind blows, it can turn the blades of a wind turbine. This movement creates mechanical energy. A generator attached to the turbine then converts this mechanical energy into electrical energy, which we can use to power homes, schools, and factories.
Electricity is Generated in a Turbine
Wind Turbine:
- A wind turbine is a machine that turns wind energy into electricity.
- When the wind blows, it turns the blades of the wind turbine.
- As the blades spin, they produce mechanical energy (the energy of movement).
- The turbine is connected to a generator, which takes the mechanical energy from the blades and turns it into electrical energy.
A wind turbine works similarly to the fan in your home but in reverse. In a fan, electrical energy is turned into mechanical energy to spin the blades and move the air. In a wind turbine, mechanical energy from the wind is turned into electrical energy.
Wind Power:
Wind power is the electricity produced by wind turbines. It is a type of renewable energy, which means it comes from a natural source (the wind) and can be used again and again without running out. Other renewable energy sources include solar energy (from the sun) and hydroelectric energy (from moving water).
Complete Connection of Windmills to Generate Electricity
Uses of Wind Energy:
- Generating Electricity: The most common use of wind energy is to produce electricity. As we discussed, wind turbines convert the energy from moving air into electrical energy, which powers homes, schools, and businesses.
- Milling Grains: In the past, wind energy was used to grind grains into flour. Windmills had large blades connected to millstones. As the wind turned the blades, the millstones ground the grains.
- Pumping Water: Wind energy can also be used to pump water from the ground. Special machines called wind pumps use wind energy to move water upward, which can be helpful for farming or getting drinking water.
