GCSE Hydroelectric, Wave and Tidal

GCSE Hydroelectric, Wave and Tidal

Hydroelectric

Hydroelectric plant for GCSE Physics
 

Water is stored at height in a reservoir, allowed to flow downhill, which turns a turbine, turning a generator to produce electricity. 

Hydroelectric can be used as pumped storage, so during periods of excess electricity due to solar, a water pump is used to pump the water back up to the top reservoir, then during periods of high demand the water is allowed to flow back down hill again to meet surges in demand.

Advantages to HydroelectricDisadvantages to hydroelectric
Renewable resourceFlooding can occur before or after dam
Short start up time, can be used to meet surges in demandLow power output
Stores energy for later use, using pumped storageHigh set up cost

Wave

Wave power Generator

As the waves move in one direction the wave generator will move up and down on the surface of the water. As the generator moves, it rotates on surface of water causing electricity to be produced

Advantages to Wave PowerDisadvantages to Wave Power
Renewable resourceCables need to connect wave machine to the mainland
No carbon dioxide producedConstruction problems due to building in water

Tidal

Tidal power generator

A tidal barrage is normally located in an estuary where the river meets the sea. As the tide moves in and out it will cause the turbines to turn, which turns a generator to produce electricity.

Advantages to Tidal PowerDisadvantages to Tidal Power
Renewable resourceRestricts access for boats
No carbon dioxide producedConstruction problems due to building in water
Tide only occurs twice a day

Practice Questions

1.Explain how hydroelectric can help to meet our energy requirements during peak periods of use

2.In the UK, we are surrounded by water, but wave power is not commonly used. Suggest reasons why it is not commonly used.

3.Suggest why tidal power could be considered both as a reliable energy resource and an unreliable energy resource

Answers to the questions above
physics worksheet

Energy stores and systems notes and questions

Real life energy transfers

Kinetic energy

Gravitational potential energy

Elastic Potential energy

Changes in energy, Specific heat capacity

Power

Conservation of Energy

Work done

Conduction

Wasted energy transfers

Efficiency

Energy Resources

Wind and Solar

Coal, Oil and Natural Gas

Nuclear Power

Biofuels

Hydroelectric, Wave and Tidal

Circuit Symbols

Electric Current and Charge

Potential difference, Current and Resistance

Resistors

Thermistors and Light Dependent Resistors

Series Circuit

Parallel Circuits

Series Circuit Calculations

Parallel Circuit Calculations

Alternating and Direct Electrical Circuits

Mains Electricity

Earth wire

Fuses

Electrical Power

Energy Transfer in Circuits

Power of Appliances

National Grid

Static Charge

Static Electricity

Static Electricity and Forces

Static Electricity and Sparking

Electric Fields

Electric Fields and Objects

Density

Measuring Density

States of Matter

Changes of state

Internal Energy

Specific Heat Capacity

Latent Heat

Specific Latent Heat

Heating and Cooling Curves

Specific heat capacity compared to Specific latent heat

Motion of gas particles 

Gas Pressure and Volume

Doing work on gases

Structure of the Atom

Absorption and Emission of EM Radiation

Mass Number and Atomic Number

Isotopes

Ionisation

JJ Thomson and Plum pudding model

Ernest Rutherford and the Nuclear Model

Niels Bohr changing the Nuclear Model

Discovering the Proton and Neutron

Radioactive Decay

Measuring radiation from radioactivity

Radiation types and properties

Random nature of radioactive decay

Half life

Half life calculations

Radioactive contamination or irradiation

Hazards of contamination and irradiation

Studies on the effects of radiation on humans

Background Radiation

Different half lives of radioactive isotopes

Uses of nuclear radiation

Nuclear Fission

Nuclear Fission Chain Reaction

Writing nuclear fission equations

Drawing and interpreting nuclear fission diagrams

Nuclear Fusion

Scalar and Vector Quantities

Contact and Non Contact Forces

Describing interactions of forces and objects

Gravity

Measuring Weight

Calculating Weight

Resultant Forces

Free body diagrams

Free body diagrams part 2

Resolving Forces

Forces and Equilibrium

Finding the resultant force, using the parallelogram rule

Finding the resultant force, using the parallelogram rule part 2

Work done and Forces

Forces and Elasticity

Hooke’s Law

Calculating Spring Constant

Using Force-extension graphs

Linear and Non linear force extension graphs

Work done and elastic potential energy

 

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