physics combined

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kavleen

Cards (69)

  • What happens to the total energy in a closed system during energy transfers?

    There is no net change to the total energy in that system.
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  • What are the different ways that the energy of a system can be changed?
    Through work done by forces, in electrical equipment, and in heating.
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  • How is work done by a force measured?

    Work done by a force is measured in joules (J) and is equal to energy transferred.
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  • What is the equation for work done?
    Work done (joule, J) = force (newton, N) × distance moved in the direction of the force (metre, m).
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  • How do you calculate the change in gravitational potential energy when an object is raised?

    Change in gravitational potential energy (joule, J) = mass (kilogram, kg) × gravitational field strength (newton per kilogram, N/kg) × change in vertical height (metre, m).
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  • What is the equation for kinetic energy?

    Kinetic energy (joule, J) = \(\frac{1}{2} \times \text{mass (kilogram, kg)} \times (\text{speed})^2\).
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  • How is energy dissipated in system changes?

    Energy is dissipated so that it is stored in less useful ways.
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  • What happens to mechanical processes that cause a rise in temperature?

    They become wasteful by dissipating energy in heating the surroundings.
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  • How is power defined in physics?

    Power is defined as the rate at which energy is transferred.
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  • What is the equation for power?
    Power (watt, W) = work done (joule, J) ÷ time taken (second, s).
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  • What is one watt equivalent to?

    One watt is equal to one joule per second (J/s).
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  • What is the equation for efficiency?

    Efficiency = (useful energy transferred by the device) ÷ (total energy supplied to the device).
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  • What is the importance of using ratios and proportional reasoning in calculations?

    It helps convert units and compute rates.
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  • What is the focus of Topic 9 in the specification?

    Forces and their effects.
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  • How can objects interact at a distance?
    Through gravitational, electrostatic, and magnetic fields.
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  • What is the difference between vector and scalar quantities?

    Vector quantities have both magnitude and direction, while scalar quantities have only magnitude.
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  • How can vector diagrams be used in physics?

    To illustrate resolution of forces, net force, and equilibrium situations.
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  • What is a free body force diagram used for?

    To draw and use representations of forces acting on an object.
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  • What happens when several forces act on an isolated solid object?

    They can lead to a resultant force on the object.
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  • How can unwanted energy transfer be reduced?

    Through lubrication.
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  • What is the title of Topic 10 in the specification?

    Electricity and circuits.
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  • What should students describe regarding the structure of the atom?
    The position, mass, and charge of protons, neutrons, and electrons.
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  • What is the purpose of electric circuit diagrams?

    To represent circuits with positive and negative terminals and various components.
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  • What is the difference between series and parallel circuits?

    Series circuits have components connected in a single path, while parallel circuits have multiple paths for current.
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  • How is a voltmeter connected in a circuit?

    A voltmeter is connected in parallel with a component.
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  • What does potential difference (voltage) represent?

    It is the energy transferred per unit charge passed.
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  • What is the equation for energy transferred in terms of charge and potential difference?

    Energy transferred (joule, J) = charge moved (coulomb, C) × potential difference (volt, V).
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  • How is an ammeter connected in a circuit?

    An ammeter is connected in series with a component.
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  • What is electric current defined as?

    Electric current is the rate of flow of charge.
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  • What is the equation for charge in terms of current and time?

    Charge (coulomb, C) = current (ampere, A) × time (second, s).
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  • What happens when a closed circuit includes a source of potential difference?

    There will be a current in the circuit.
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  • What is the principle of current conservation at a junction in a circuit?

    Current is conserved at a junction in a circuit.
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  • How does changing resistance in a circuit affect current?

    Changing resistance affects the current, which can be achieved using a variable resistor.
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  • What is the equation for potential difference in terms of current and resistance?

    Potential difference (volt, V) = current (ampere, A) × resistance (ohm, Ω).
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  • What happens to net resistance when resistors are in series?

    The net resistance is increased.
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  • What happens to net resistance when resistors are in parallel?

    The net resistance is decreased.
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  • What is the focus of Topic 12 in the specification?

    Magnetism and the motor effect.
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  • What happens to unlike magnetic poles?

    Unlike magnetic poles attract.
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  • What are examples of permanent and temporary magnetic materials?

    Permanent materials include cobalt, steel, iron, and nickel.
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  • What is the difference between permanent and induced magnets?

    Permanent magnets maintain their magnetism, while induced magnets only become magnetic in the presence of a magnetic field.
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