Science | Energy sources

Study Notes: Energy and Energy Sources

Hey everyone! Ever wondered how your phone lights up, how a car moves, or even how you have the energy to run around with your friends? It's all about energy! In these notes, we'll explore what energy is, the different types it comes in, and where we get it from. Understanding energy is super important because it powers our entire world, and learning how to use it wisely helps protect our planet. Let's get started!

1. What is Energy and its Many Forms?

Think of energy as the power to make things happen or to do work. We can't see energy itself, but we can see what it does! Just like you can't see "luck", but you can see the result of it. Energy comes in many different forms.

Here are the main types you should know:

• Chemical Energy: This is energy stored in things like food, fuel (like petrol), and batteries. When we eat food, our bodies use the chemical energy to move and grow.
Example: The energy in a chocolate bar that helps you play sports.

• Electrical Energy: This is the energy of moving electric charges. It's what powers most of the gadgets in our homes.
Example: The energy that flows through wires to light up a lamp.

• Kinetic Energy: This is the energy of movement. Anything that is moving has kinetic energy.
Example: A moving bus, a rolling ball, or you running in the playground.

• Light Energy: This is the energy we can see. It travels in waves.
Example: Sunlight, or the light from a torch.

• Potential Energy: This is stored energy, waiting to be used. A common type is gravitational potential energy, which an object has when it's in a high place.
Example: A book on a high shelf has the potential to fall. A stretched rubber band has potential energy.

• Sound Energy: This is energy that we can hear. It's created by vibrations.
Example: The noise from a drum, or your friend talking to you.

• Thermal Energy (Heat): This is the energy of hot objects. The hotter something is, the more thermal energy it has.
Example: The heat from a cup of hot chocolate or a bonfire.

How do we measure energy?

The standard unit for measuring energy is the joule (J). For food energy, we often use kilocalorie (kcal).

Quick Review!

- Energy makes things happen.
- Moving things have Kinetic Energy.
- Stored energy is Potential Energy.
- Food and batteries have Chemical Energy.

Key Takeaway

Energy is all around us in many different forms, like chemical, kinetic, and thermal energy. It's the "go power" for everything in the universe!

2. Energy Can Change! (Energy Conversion)

Energy is amazing because it can change from one form to another. This is called energy conversion. Think of it like changing your money from dollars to euros – the value is still there, it's just in a different form!

Examples of Energy Conversion:

1. Burning Wood: The chemical energy stored in the wood is converted into thermal energy (heat) and light energy.

2. A Power Plant: In a typical power plant, chemical energy in coal is burned to create thermal energy. This boils water, creating steam. The moving steam has kinetic energy, which spins a turbine. The turbine turns a generator, which produces electrical energy!

3. Photosynthesis: Plants are energy conversion experts! They take light energy from the sun and convert it into chemical energy, which they store as food.

The Most Important Rule in Energy

There's a very important rule called the Law of Conservation of Energy. It states that:

"Energy cannot be created or destroyed, it can only be changed from one form to another."

This means the total amount of energy in the universe always stays the same. It just moves around and changes its appearance!

Extension Topic: How Good is the Change? (Energy Efficiency)

When we convert energy, we usually want one specific type (like light from a light bulb), but we often get other types we don't want (like heat). Efficiency tells us how much of the starting energy becomes the useful energy we want.

• An old-style light bulb gets very hot. A lot of electrical energy is wasted as thermal energy. It is not very efficient.
• A modern LED bulb stays cool but gives off bright light. Most of the electrical energy is converted into useful light energy. It is very efficient!

We can calculate efficiency with a formula:

$$Efficiency = \frac{Useful\ energy\ output}{Total\ energy\ input} \times 100\%$$

Key Takeaway

Energy doesn't disappear; it just changes form (this is called energy conversion). Some conversions are more efficient than others at producing useful energy.

3. How Heat Moves Around (Heat Transfer)

Thermal energy (or heat) is special because it always tries to move from a hotter place to a cooler place. It can do this in three ways:

1. Conduction: This is how heat travels through solids. Imagine a line of students passing a book along without leaving their seats. The particles in a solid vibrate and knock into their neighbours, passing the heat energy along.
Example: A metal spoon getting hot when you leave it in a bowl of hot soup.

2. Convection: This is how heat travels through liquids and gases. Hotter parts of the fluid rise, and cooler parts sink to take their place, creating a circular flow called a convection current.
Example: Boiling water in a pot, or a heater warming up a room.

3. Radiation: This is how heat travels through empty space in the form of waves. It doesn't need any particles to travel.
Example: How we feel the heat from the Sun, even though it's millions of kilometres away, or the warmth from a campfire.

Key Takeaway

Heat moves from hot to cold through conduction (in solids), convection (in liquids/gases), or radiation (through space).

4. Where Does Our Energy Come From? (Energy Sources)

We need energy for everything, from lighting our homes to running our factories. We get this energy from energy sources. These are split into two main groups.

The Old Favourites: Fossil Fuels (Non-renewable)

For a long time, most of our energy has come from fossil fuels. These are coal, oil, and natural gas. They were formed from the remains of ancient plants and animals millions of years ago.

• They are non-renewable. This means that once we use them up, they are gone for a very, very long time. Think of it like a pizza – once you eat it, it's gone! You can't just make another one in a second.

• Problems with Fossil Fuels:
- Limited Supply: They will eventually run out.
- Pollution: Burning them releases harmful gases that can cause air pollution, acid rain, and contribute to climate change.

Extension Topic: The New Team: Alternative Energy Sources

Because fossil fuels have problems, scientists are developing other ways to get energy. Many of these are renewable, meaning they won't run out. Think of the sun – it rises every day!

Here are some important alternative sources:

• Solar Energy: Getting energy directly from the sun using solar panels.

• Wind Power: Using the kinetic energy of the wind to turn large turbines and generate electricity.

• Hydroelectric Power: Using the energy of moving water (like in a dam) to spin turbines.

• Biomass Energy: Burning organic materials like wood or special crops to produce energy.

• Nuclear Energy: This source uses energy released from splitting atoms. It's very powerful and doesn't create pollution that causes climate change. However, there are concerns about the safety of nuclear power plants and the disposal of radioactive waste.

Did you know?

Even renewable energy sources have challenges. For example, some people are concerned that large wind farms (lots of wind turbines together) can be noisy and affect local wildlife.

Key Takeaway

Most of our energy comes from non-renewable fossil fuels, which cause pollution and will run out. We are now developing cleaner, renewable sources like solar and wind power for the future.

5. Using Energy Wisely (Saving Energy)

Since generating energy has an impact on our planet, one of the best things we can do is to simply use less of it! This is called energy conservation or saving energy.

Why should we save energy?

• It makes our fossil fuels last longer.
• It reduces pollution and helps fight climate change.
• It saves money on electricity bills!

Simple Ways You Can Save Energy:

• Turn off the lights when you leave a room.
• Unplug electronics when you're not using them.
• Walk or cycle for short journeys instead of taking a car.
• Use appliances that are more energy-efficient (look for the energy label!).

Key Takeaway

Saving energy is crucial. Every small action helps protect our environment and ensure we have enough energy for the future.