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Growth and dynamic homeostasis are maintained by the constant movement of molecules across membranes. Analyzing Transport.

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Presentation on theme: "Growth and dynamic homeostasis are maintained by the constant movement of molecules across membranes. Analyzing Transport."— Presentation transcript:

1 Growth and dynamic homeostasis are maintained by the constant movement of molecules across membranes. Analyzing Transport

2 Tonicity A measurement of the relative concentrations of solute between two solutions (inside and outside of cell). Hypertonic: More solute/less solvent. Hypotonic: Less solute/more solvent Isotonic: Equal concentrations. These terms are comparative. The solvent is always water.

3 Tonicity effects cell physiology.
Solute moves from hypertonic to hypotonic solutions IF it is able to. Solvent (water) moves from hypotonic to hypertonic solutions.

4 Different cell types are adapted to different tonicity relationships.

5 Math Skills- Water Potential and solute potential
Growth and dynamic homeostasis are maintained by the constant movement of molecules across membranes. Math Skills- Water Potential and solute potential

6 What You Have To Do Be able to calculate water potential and use it to determine how likely it is that water will move in to or out of a cell. Water Potential (Ψ): A measurement of how likely it is that water will move in/out of a solution. Pure water is assigned a potential of 0. The more negative the potential, the more likely water will move in to the area.

7 Ψ Ψp = pressure potential (external force).
Ψs = solute potential (tonicity). The units for Ψ are pressure units. Typically bars (aka torr, mmHg) If a system is at amospheric pressure, Ψp is 0

8 Solute Potential i = ionization constant for the solute (1.0 for sucrose, 2.0 for NaCl, etc.) C = molar concentration of the solute R= pressure constant liter bars/mole K T= temperature in Kelvin (C + 273)

9 Sample Problem Determine which of the following solutions will gain the most water if placed in to a sample of pure water in a piece of dialysis tubing at the temperature indicated: Solution: Solute: Tonicity: Temperature A Sucrose 2M 298K B NaCl 1M 290K C Glucose 300K

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