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About 6 results
  • 14.3: Intravenous Solutions
    https://med.libretexts.org/Courses/University_of_South_Carolina_Upstate/Nursing_Fundamentals_(OpenRN)/14%3A_Fluids_and_Electrolytes/14.03%3A_Intravenous_Solutions
    See Figure 15.9 [2] for an illustration of the osmotic movement of fluid into a cell when a hypotonic IV solution is administered, causing lower concentration of solutes (pink molecules) in the bloods...See Figure 15.9 [2] for an illustration of the osmotic movement of fluid into a cell when a hypotonic IV solution is administered, causing lower concentration of solutes (pink molecules) in the bloodstream compared to within the cell. See Figure 15.10 [3] for an illustration of osmotic movement of fluid out of a cell when hypertonic IV fluid is administered due to a higher concentration of solutes (pink molecules) in the bloodstream compared to the cell.
  • 14.2: Basic Fluid and Electrolyte Concepts
    https://med.libretexts.org/Courses/University_of_South_Carolina_Upstate/Nursing_Fundamentals_(OpenRN)/14%3A_Fluids_and_Electrolytes/14.02%3A_Basic_Fluid_and_Electrolyte_Concepts
    Diffusion is the movement of molecules from an area of higher concentration to an area of lower concentration to equalize the concentration of solutes throughout an area. (Note that diffusion is diffe...Diffusion is the movement of molecules from an area of higher concentration to an area of lower concentration to equalize the concentration of solutes throughout an area. (Note that diffusion is different from osmosis because osmosis is the movement of fluid whereas diffusion is the movement of solutes.) See Figure 15.4 [9] for an image of diffusion.
  • 15.3: Intravenous Solutions
    https://med.libretexts.org/Bookshelves/Nursing/Nursing_Fundamentals_(OpenRN)/15%3A_Fluids_and_Electrolytes/15.03%3A_Intravenous_Solutions
    See Figure 15.9 [2] for an illustration of the osmotic movement of fluid into a cell when a hypotonic IV solution is administered, causing lower concentration of solutes (pink molecules) in the bloods...See Figure 15.9 [2] for an illustration of the osmotic movement of fluid into a cell when a hypotonic IV solution is administered, causing lower concentration of solutes (pink molecules) in the bloodstream compared to within the cell. See Figure 15.10 [3] for an illustration of osmotic movement of fluid out of a cell when hypertonic IV fluid is administered due to a higher concentration of solutes (pink molecules) in the bloodstream compared to the cell.
  • 2.9: Serum Osmolality
    https://med.libretexts.org/Bookshelves/Allied_Health/Book%3A_Clinical_Chemistry_-_Theory_Analysis_Correlation_(Kaplan_and_Pesce)/02%3A_Laboratory_Exercises/2.09%3A_Serum_Osmolality
    The direct methods are usually based on the freezing point or the vapor pressure of a solution. The indirect method involves measuring the concentrations of major solutes and then calculating the osmo...The direct methods are usually based on the freezing point or the vapor pressure of a solution. The indirect method involves measuring the concentrations of major solutes and then calculating the osmolality. Students will first need to determine that the anion gap is abnormal and then, using a serum chemistry profile or “case history” can evaluate the validity of the abnormal results.
  • Chapter 9 - Homeostasis And its Disturbance During Exercise
    https://med.libretexts.org/Bookshelves/Sports_and_Exercise/Open_Textbook_of_Exercise_Physiology_(MacIntosh)/02%3A_The_Fundamentals_of_Exercise_Physiology/2.07%3A_Chapter_9-_Homeostasis_And_its_Disturbance_During_Exercise
    Race day morning weather conditions are very fine and temperatures are predicted to reach 25°C during the race, with relative humidity (RH) pushing 80%. BJ is thinking “nice – I’m going to have a grea...Race day morning weather conditions are very fine and temperatures are predicted to reach 25°C during the race, with relative humidity (RH) pushing 80%. BJ is thinking “nice – I’m going to have a great run today”. Temperature at the start of the race is 21°C, and with the excitement of the start, BJ goes out hard and his speed for the first 2 km is 13 km · h -1 . He feels great, he feels that he is in for a good run, and he decides to maintain this pace.
  • 15.2: Basic Fluid and Electrolyte Concepts
    https://med.libretexts.org/Bookshelves/Nursing/Nursing_Fundamentals_(OpenRN)/15%3A_Fluids_and_Electrolytes/15.02%3A_Basic_Fluid_and_Electrolyte_Concepts
    Diffusion is the movement of molecules from an area of higher concentration to an area of lower concentration to equalize the concentration of solutes throughout an area. (Note that diffusion is diffe...Diffusion is the movement of molecules from an area of higher concentration to an area of lower concentration to equalize the concentration of solutes throughout an area. (Note that diffusion is different from osmosis because osmosis is the movement of fluid whereas diffusion is the movement of solutes.) See Figure 15.4 [9] for an image of diffusion.

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