ENERGY

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    Created by
    Eva Riccioni+Carteni

    Cards (34)

    • Kinetic energy equation

      ½ m v2
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    • SI units for kinetic energy equation
      • Energy (J), Mass(kg), Velocity(m/s)
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    • Elastic potential energy equation
      ½ k x2
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    • SI units for elastic potential energy equation
      • Energy (J), Spring Constant (N/m), Extension(m)
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    • SI units for gravity potential energy equation
      • Energy (J), Mass(kg), Gravitational Field Strength (N/kg), Height (m)
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    • Specific Heat Capacity
      The amount of energy needed to raise the temperature of 1 kilogram of a substance by 1 degree Celsius
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    • Units for Specific Heat Capacity
      • J/°C/kg
      • Joules/Degree Celsius/Kilogram
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    • Power
      The rate at which energy is transferred (or rate at which work is done)
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    • Equations for power
      • power = energy transferred/time
      • power = work done/time
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    • SI units for power equations
      • Energy (J), Work Done (J), Time (s)
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    • Unit of power
      Watt (W)
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    • Two motors lift the same mass through the same height. Motor A does this in half the time of Motor B.
      Motor A dissipates the most power
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    • Energy changes when a ball is thrown upwards and returns to starting position

      1. Upwards: KE is converted to GPE
      2. Peak: Maximum GPE, zero KE
      3. Downwards: GPE is converted to KE
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    • Kinetic energy equation
      ½ m v2
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    • Energy transfers for a bungee jumper
      1. When falling, the GPE is converted to KE of jumper
      2. As the cord tightens, KE is converted and stored as Elastic Potential Energy (EPE)
      3. At lowest point, the jumper's initial GPE equals the EPE stored in the cord
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    • Kinetic energy equation
      • Energy (J), Mass(kg), Velocity(m/s)
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    • Bungee jumper slows down once the cord begins to stretch
      • Kinetic energy decreases since it is converted to elastic potential energy
      • Since KE is proportional to (velocity)², as KE decreases, so does velocity
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    • Elastic potential energy equation
      ½ k x2
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    • Chemical energy stores
      • Food
      • Fuel (eg. wood, coal, petrol)
      • Batteries
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    • Different stores of energy
      • Kinetic Energy
      • Gravitational Potential Energy
      • Elastic Potential Energy
      • Chemical Energy
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    • Elastic potential energy equation

      • Energy (J), Spring Constant (N/m), Extension(m)
      View source
    • Gravity potential energy equation
      • Energy (J), Mass(kg), Gravitational Field Strength (N/kg), Height (m)
      View source
    • Specific Heat Capacity
      The amount of energy needed to raise the temperature of 1 kilogram of a substance by 1 degree Celsius
      View source
    • Specific Heat Capacity
      • J/°C/kg
      View source
    • Power
      The rate at which energy is transferred (or rate at which work is done)
      View source
    • Power equations
      • power = energy transferred/time
      • power = work done/time
      View source
    • Power
      • Energy (J), Work Done (J), Time (s)
      View source
    • Power unit
      Watt (W)
      View source
    • Two motors lift the same mass through the same height. Motor A does this in half the time of Motor B
      Motor A dissipates the most power
      View source
    • Energy changes when a ball is thrown upwards and returns to starting position

      1. Upwards: KE is converted to GPE
      2. Peak: Maximum GPE, zero KE
      3. Downwards: GPE is converted to KE
      View source
    • Energy transfers for a bungee jumper
      1. When falling, the GPE is converted to KE of jumper
      2. As the cord tightens, KE is converted and stored as Elastic Potential Energy (EPE)
      3. At lowest point, the jumper's initial GPE equals the EPE stored in the cord
      View source
    • Bungee jumper slows down once the cord begins to stretch
      • Kinetic energy decreases since it is converted to elastic potential energy
      • Since KE is proportional to (velocity)², as KE decreases, so does velocity
      View source
    • Chemical energy stores
      • Food
      • Fuel (eg. wood, coal, petrol)
      • Batteries
      View source
    • Different stores of energy
      • Kinetic Energy
      • Gravitational Potential Energy
      • Elastic Potential Energy
      • Chemical Energy
      View source
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