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Conservation of energy

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Conservation Of Energy… -BY GROUP A
Conversation Of Energy… • Julius Robert Mayer • What is Conservation Of Energy ? • Conservation Laws… • Add your third bullet point here
Julius Robert Mayer Julius Robert Mayer (November 25, 1814 – March 20, 1878) was a German physician and physicist and one of the founders of thermodynamics. He is best known for enunciating in 1841 one of the original statements of the conservation of energy or what is now known as one of the first versions of the first law of thermodynamics, namely that "energy can be neither created nor destroyed". In 1842, Mayer described the vital chemical process now referred to as oxidation as the primary source of energy for any living creature. His achievements were overlooked and priority for the discovery of the mechanical equivalent of heat was attributed to James Joule in the following year. He also proposed that plants convert light into chemical energy.
What is Conservation Of Energy ? • The conservation of energy is a fundamental concept of physics along with the conservation of masses and the conservation of momentum. • Within some problem domain, the amount of energy remains constant and energy is neither created nor destroyed. • Energy can be converted from one form to another (potential energy can be converted to kinetic energy) but the total energy within the domain remains fixed. • Energy can neither be created nor destroyed; rather, it transforms from one form to another.
Conservation Laws... • The law of conservation of energy is one of the basic laws of physics and therefore governs the microscopic motion of individual atoms in a chemical reaction.The law of conservation energy states: In a closed system, i.e., a system that isolated from its surroundings, the total energy of the system is conserved. • Since everything has a microscopic origin, the last three are really special cases of potential and kinetic energies, however, the classification is useful. The kinetic energy of an object of mass, ‘m’ . moving with a velocity, ‘v’. Is given by 𝐾𝐸 = 1 2 𝑚𝑣2
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Conservation of energy

  • 2. Conversation Of Energy… • Julius Robert Mayer • What is Conservation Of Energy ? • Conservation Laws… • Add your third bullet point here
  • 3. Julius Robert Mayer Julius Robert Mayer (November 25, 1814 – March 20, 1878) was a German physician and physicist and one of the founders of thermodynamics. He is best known for enunciating in 1841 one of the original statements of the conservation of energy or what is now known as one of the first versions of the first law of thermodynamics, namely that "energy can be neither created nor destroyed". In 1842, Mayer described the vital chemical process now referred to as oxidation as the primary source of energy for any living creature. His achievements were overlooked and priority for the discovery of the mechanical equivalent of heat was attributed to James Joule in the following year. He also proposed that plants convert light into chemical energy.
  • 4. What is Conservation Of Energy ? • The conservation of energy is a fundamental concept of physics along with the conservation of masses and the conservation of momentum. • Within some problem domain, the amount of energy remains constant and energy is neither created nor destroyed. • Energy can be converted from one form to another (potential energy can be converted to kinetic energy) but the total energy within the domain remains fixed. • Energy can neither be created nor destroyed; rather, it transforms from one form to another.
  • 5. Conservation Laws... • The law of conservation of energy is one of the basic laws of physics and therefore governs the microscopic motion of individual atoms in a chemical reaction.The law of conservation energy states: In a closed system, i.e., a system that isolated from its surroundings, the total energy of the system is conserved. • Since everything has a microscopic origin, the last three are really special cases of potential and kinetic energies, however, the classification is useful. The kinetic energy of an object of mass, ‘m’ . moving with a velocity, ‘v’. Is given by 𝐾𝐸 = 1 2 𝑚𝑣2
  • 6. Title and Content Layout with Chart 0 1 2 3 4 5 6 Category 1 Category 2 Category 3 Category 4 Series 1 Series 2 Series 3
  • 7. Two Content Layout with Table • First bullet point here • Second bullet point here • Third bullet point here Class Group 1 Group 2 Class 1 82 95 Class 2 76 88 Class 3 84 90
  • 8. Title and Content Layout with SmartArt • Task description • Task description Step 1Title • Task description • Task description Step 2Title • Task description • Task description Step 3Title
  • 9. Add a Slide Title - 1
  • 10. Add a Slide Title - 2
  • 11. Add a Slide Title - 3
  • 12.
  • 13. Add a Slide Title - 4
  • 14. Add a Slide Title - 5