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HOW IS KINETIC ENERGY DISTRIBUTED IN A LIQUID?

HOW IS KINETIC ENERGY DISTRIBUTED IN A LIQUID?. LOW. HIGH. kinetic. kinetic. energy. energy. LOW. HIGH. kinetic. kinetic. energy. energy. LOW. HIGH. kinetic. kinetic. energy. energy. LOW. HIGH. kinetic. kinetic. energy. energy. LOW. HIGH. kinetic. kinetic.

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HOW IS KINETIC ENERGY DISTRIBUTED IN A LIQUID?

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  1. HOW IS KINETIC ENERGY DISTRIBUTED IN A LIQUID?

  2. LOW HIGH kinetic kinetic energy energy

  3. LOW HIGH kinetic kinetic energy energy

  4. LOW HIGH kinetic kinetic energy energy

  5. LOW HIGH kinetic kinetic energy energy

  6. LOW HIGH kinetic kinetic energy energy

  7. LOW HIGH kinetic kinetic energy energy

  8. LOW HIGH kinetic kinetic energy energy

  9. LOW HIGH kinetic kinetic energy energy COLD HOT

  10. kinetickinetic kinetic energyenergy energy COLD HOT LOWINTERMEDIATEHIGH

  11. kinetickinetic kinetic energyenergy energy COLD HOT LOWINTERMEDIATEHIGH

  12. Number of particles

  13. Number of particles low high kinetic energy

  14. low K.E. high K.E. Number of particles

  15. low K.E. high K.E. Number of particles average K.E. = temperature of liquid

  16. WHAT HAPPENS TO A LIQUID’S TEMPERATURE DURING EVAPORATION?

  17. low temperature high temperature temperature of liquid

  18. low high temperature1

  19. low high temperature 2

  20. low high temperature 2

  21. low high

  22. low high Would the curve remain truncated at the high end as shown? How would the curve change as high KE particles leave?

  23. Would the curve remain truncated at the high end as shown? How would the curve change as high KE particles leave? low K.E. high K.E.

  24. Would the curve remain truncated at the high end as shown? How would the curve change as high KE particles leave? low K.E. high K.E. average K.E.

  25. Would the curve remain truncated at the high end as shown? How would the curve change as high KE particles leave? Number of particles low K.E. high K.E. average K.E.

  26. low K.E. high K.E. Number of particles average K.E.

  27. low K.E. high K.E. Number of particles average K.E.1 average K.E.2

  28. Why/How does sweat cool your body? (Sweat is mostly water. What is water in sweat doing?)

  29. low K.E. high K.E. Number of particles temperature of liquid

  30. low K.E. high K.E. air temperature Number of particles temperature of liquid

  31. low K.E. high K.E. air temperature Number of particles temperature of liquid

  32. low K.E. high K.E. air temperature Number of particles temperature of liquid

  33. low K.E. high K.E. air temperature Number of particles heat transfer from warmer air to cooler water temperature of liquid

  34. low K.E. high K.E. air temperature Number of particles heat transfer from warmer air to cooler water temperature of liquid

  35. low K.E. high K.E. air temperature Number of particles heat transfer from warmer air to cooler water temperature of liquid

  36. low K.E. high K.E. air temperature Number of particles heat transfer from warmer air to cooler water temperature of liquid

  37. low K.E. high K.E. air temperature Number of particles heat transfer from warmer air to cooler water temperature of liquid

  38. low K.E. high K.E. air temperature Number of particles heat transfer from warmer air to cooler water temperature of liquid

  39. low K.E. high K.E. air temperature Number of particles heat transfer from warmer air to cooler water temperature of liquid

  40. low K.E. high K.E. air temperature Number of particles temperature of liquid

  41. low K.E. high K.E. air temperature Number of particles temperature of liquid

  42. low K.E. high K.E. air temperature Number of particles temperature of liquid

  43. low K.E. high K.E. air temperature Number of particles temperature of liquid

  44. low K.E. high K.E. air temperature Number of particles temperature of liquid

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