O level Work, Energy and Power

Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15Ld6KabsL9x9X-t4GefBgSzXFDckJFa6 1.7 Energy, work and power 1.7.1 Energy 1 State that energy may be stored as kinetic, gravitational potential, chemical, elastic (strain), nuclear, electrostatic and internal (thermal) 2 Describe how energy is transferred between stores during events and processes, including examples of transfer by forces (mechanical work done), electrical currents (electrical work done), heating, and by electromagnetic, sound and other waves 3 Know the principle of the conservation of energy and apply this principle to the transfer of energy between stores during events and processes 4 Recall and use the equation for kinetic energy Ek = 1/2mv2 5 Recall and use the equation for the change in gravitational potential energy ΔE p = mgΔh 1.7.2 Work 1 Recall and use the equation work done = force × distance moved in the direction of the force W = Fd Cambridge O Level Physics 5054 syllabus

Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15Ld6KabsL9x9X-t4GefBgSzXFDckJFa6 1.7 Energy, work and power 1.7.1 Energy 1 State that energy may be stored as kinetic, gravitational potential, chemical, elastic (strain), nuclear, electrostatic and internal (thermal) 2 Describe how energy is transferred between stores during events and processes, including examples of transfer by forces (mechanical work done), electrical currents (electrical work done), heating, and by electromagnetic, sound and other waves 3 Know the principle of the conservation of energy and apply this principle to the transfer of energy between stores during events and processes 4 Recall and use the equation for kinetic energy Ek = 1/2mv2 5 Recall and use the equation for the change in gravitational potential energy ΔE p = mgΔh 1.7.2 Work 1 Recall and use the equation work done = force × distance moved in the direction of the force W = Fd Cambridge O Level Physics 5054 syllabus

Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15Ld6KabsL9x9X-t4GefBgSzXFDckJFa6 1.7 Energy, work and power 1.7.1 Energy 1 State that energy may be stored as kinetic, gravitational potential, chemical, elastic (strain), nuclear, electrostatic and internal (thermal) 2 Describe how energy is transferred between stores during events and processes, including examples of transfer by forces (mechanical work done), electrical currents (electrical work done), heating, and by electromagnetic, sound and other waves 3 Know the principle of the conservation of energy and apply this principle to the transfer of energy between stores during events and processes 4 Recall and use the equation for kinetic energy Ek = 1/2mv2 5 Recall and use the equation for the change in gravitational potential energy ΔE p = mgΔh 1.7.2 Work 1 Recall and use the equation work done = force × distance moved in the direction of the force W = Fd Cambridge O Level Physics 5054 syllabus

Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15Ld6KabsL9x9X-t4GefBgSzXFDckJFa6 1.7 Energy, work and power 1.7.1 Energy 1 State that energy may be stored as kinetic, gravitational potential, chemical, elastic (strain), nuclear, electrostatic and internal (thermal) 2 Describe how energy is transferred between stores during events and processes, including examples of transfer by forces (mechanical work done), electrical currents (electrical work done), heating, and by electromagnetic, sound and other waves 3 Know the principle of the conservation of energy and apply this principle to the transfer of energy between stores during events and processes 4 Recall and use the equation for kinetic energy Ek = 1/2mv2 5 Recall and use the equation for the change in gravitational potential energy ΔE p = mgΔh 1.7.2 Work 1 Recall and use the equation work done = force × distance moved in the direction of the force W = Fd Cambridge O Level Physics 5054 syllabus

Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15Ld6KabsL9x9X-t4GefBgSzXFDckJFa6 1.7 Energy, work and power 1.7.1 Energy 1 State that energy may be stored as kinetic, gravitational potential, chemical, elastic (strain), nuclear, electrostatic and internal (thermal) 2 Describe how energy is transferred between stores during events and processes, including examples of transfer by forces (mechanical work done), electrical currents (electrical work done), heating, and by electromagnetic, sound and other waves 3 Know the principle of the conservation of energy and apply this principle to the transfer of energy between stores during events and processes 4 Recall and use the equation for kinetic energy Ek = 1/2mv2 5 Recall and use the equation for the change in gravitational potential energy ΔE p = mgΔh 1.7.2 Work 1 Recall and use the equation work done = force × distance moved in the direction of the force W = Fd Cambridge O Level Physics 5054 syllabus

Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15Ld6KabsL9x9X-t4GefBgSzXFDckJFa6 1.7 Energy, work and power 1.7.1 Energy 1 State that energy may be stored as kinetic, gravitational potential, chemical, elastic (strain), nuclear, electrostatic and internal (thermal) 2 Describe how energy is transferred between stores during events and processes, including examples of transfer by forces (mechanical work done), electrical currents (electrical work done), heating, and by electromagnetic, sound and other waves 3 Know the principle of the conservation of energy and apply this principle to the transfer of energy between stores during events and processes 4 Recall and use the equation for kinetic energy Ek = 1/2mv2 5 Recall and use the equation for the change in gravitational potential energy ΔE p = mgΔh 1.7.2 Work 1 Recall and use the equation work done = force × distance moved in the direction of the force W = Fd Cambridge O Level Physics 5054 syllabus

Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15Ld6KabsL9x9X-t4GefBgSzXFDckJFa6 1.7 Energy, work and power 1.7.1 Energy 1 State that energy may be stored as kinetic, gravitational potential, chemical, elastic (strain), nuclear, electrostatic and internal (thermal) 2 Describe how energy is transferred between stores during events and processes, including examples of transfer by forces (mechanical work done), electrical currents (electrical work done), heating, and by electromagnetic, sound and other waves 3 Know the principle of the conservation of energy and apply this principle to the transfer of energy between stores during events and processes 4 Recall and use the equation for kinetic energy Ek = 1/2mv2 5 Recall and use the equation for the change in gravitational potential energy ΔE p = mgΔh 1.7.2 Work 1 Recall and use the equation work done = force × distance moved in the direction of the force W = Fd Cambridge O Level Physics 5054 syllabus

Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15Ld6KabsL9x9X-t4GefBgSzXFDckJFa6 1.7 Energy, work and power 1.7.1 Energy 1 State that energy may be stored as kinetic, gravitational potential, chemical, elastic (strain), nuclear, electrostatic and internal (thermal) 2 Describe how energy is transferred between stores during events and processes, including examples of transfer by forces (mechanical work done), electrical currents (electrical work done), heating, and by electromagnetic, sound and other waves 3 Know the principle of the conservation of energy and apply this principle to the transfer of energy between stores during events and processes 4 Recall and use the equation for kinetic energy Ek = 1/2mv2 5 Recall and use the equation for the change in gravitational potential energy ΔE p = mgΔh 1.7.2 Work 1 Recall and use the equation work done = force × distance moved in the direction of the force W = Fd Cambridge O Level Physics 5054 syllabus

Link to our latest notes and resources: https://drive.google.com/drive/u/2/folders/15Ld6KabsL9x9X-t4GefBgSzXFDckJFa6 1.7 Energy, work and power 1.7.1 Energy 1 State that energy may be stored as kinetic, gravitational potential, chemical, elastic (strain), nuclear, electrostatic and internal (thermal) 2 Describe how energy is transferred between stores during events and processes, including examples of transfer by forces (mechanical work done), electrical currents (electrical work done), heating, and by electromagnetic, sound and other waves 3 Know the principle of the conservation of energy and apply this principle to the transfer of energy between stores during events and processes 4 Recall and use the equation for kinetic energy Ek = 1/2mv2 5 Recall and use the equation for the change in gravitational potential energy ΔE p = mgΔh 1.7.2 Work 1 Recall and use the equation work done = force × distance moved in the direction of the force W = Fd Cambridge O Level Physics 5054 syllabus