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Energy at work | Year 7 Physics (Cambridge) PDF Download

Introduction to Energy Transfer

  • Definition: Energy is never created or destroyed but transferred between different forms and objects.
  • Importance: Fundamental concept in physics, underpins various topics in the course.

Forms of Energy

  • Thermal/Internal Energy:
    • Definition: Heat energy trapped within an object.
    • Example: Heating element of a kettle transferring energy to water.
  • Kinetic Energy:
    • Definition: Energy associated with movement or motion.
    • Example: Ball moving after being kicked.
  • Gravitational Potential Energy:
    • Definition: Energy due to an object's position in a gravitational field.
    • Example: Water stored in a dam.
  • Elastic Potential Energy:
    • Definition: Energy stored in a stretched or compressed elastic object.
    • Example: Stretched spring in a toy car.
  • Chemical Energy:
    • Definition: Energy stored in chemical bonds.
    • Example: Energy released from burning fuel.
  • Magnetic Energy:
    • Definition: Energy associated with magnetic fields.
    • Example: Magnets attracting or repelling.
  • Electrostatic Energy:
    • Definition: Energy due to electric charges.
    • Example: Static electricity shock.
  • Nuclear Energy:
    • Definition: Energy released from breaking apart atomic nuclei.
    • Example: Energy from nuclear reactions.

Energy at work | Year 7 Physics (Cambridge)

Energy Transfer Mechanisms

  • Mechanical Transfer:
    • Definition: Energy transfer through physical movement or forces.
    • Example: Pushing a cart uphill.
  • Electrical Transfer:
    • Definition: Energy transfer through electrical currents.
    • Example: Powering devices with electricity.
  • Heat/Radiation Transfer:
    • Definition: Energy transfer through heat or radiation.
    • Example: Sunlight warming the Earth.

Question for Energy at work
Try yourself:
Which form of energy is associated with the movement or motion of an object?
View Solution

Systems and Energy Interaction

  • Open System:
    • Definition: System where matter and energy can exchange with the surroundings.
    • Example: Boiling water in a kettle.
  • Closed System:
    • Definition: System isolated from its surroundings, exchanging only energy.
    • Example: Sealed thermos with hot coffee.

Work Done in Energy Transfer

  • Mechanical Work Done:
    • Definition: Energy transferred through physical force.
    • Example: Lifting weights.
  • Electrical Work Done:
    • Definition: Energy transferred through electrical currents.
    • Example: Lighting up a bulb.

Conclusion

Energy is crucial in understanding how objects function and interact with their environment. It exists in various forms and can be transferred between them through different mechanisms.

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FAQs on Energy at work - Year 7 Physics (Cambridge)

1. What is mechanical work done?
Ans. Mechanical work done refers to the process of applying a force to an object and moving it over a distance, resulting in the transfer of energy to the object. It is calculated by multiplying the force applied to the object by the distance it moves in the direction of the force.
2. How is electrical work done calculated?
Ans. Electrical work done is calculated by multiplying the electrical force (voltage) by the amount of electric charge that flows through a circuit. This is represented by the equation: Work = Voltage x Charge.
3. What is the relationship between mechanical work done and energy transfer?
Ans. Mechanical work done is directly related to the transfer of energy. When work is done on an object, energy is transferred to it, increasing its kinetic energy. Conversely, when work is done by an object, energy is transferred away from it, decreasing its kinetic energy.
4. Can mechanical work done be negative?
Ans. Yes, mechanical work done can be negative. This occurs when the force applied to an object is in the opposite direction to the object's motion. In this case, the work done is considered to be negative as energy is transferred out of the object.
5. How does the concept of mechanical work done apply in everyday situations?
Ans. Mechanical work done is evident in various everyday activities, such as lifting objects, pushing a car, or pedaling a bike. In each of these situations, work is being done to overcome a resistance or move an object, resulting in energy transfer and changes in kinetic energy.
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