having a lower concentration of solute than another solution\nit shrinks\nhaving a higher concentration of…

having a lower concentration of solute than another solution\nit shrinks\nhaving a higher concentration of solute than another solution.\nmovement of particles from an area of high concentration to an area of low concentration through a protein\ndiffusion of water through a selectively permeable membrane, from a high concentration of water to a low concentration of water\nit maintains its shape\nmovement of a particles from an area of high concentration to an area of low concentration\ninto the cell\nwhen the concentration of two solutions is the same\nrequires no energy, movement of molecules from high to low concentration\na. what happens to a cell when placed in a hypertonic solution?\nb. isotonic\nc. osmosis\nd. passive transport\ne. how does water move when a cell is placed in a hypotonic solution?\nf. simple diffusion\ng. what happens to a cell when placed in an isotonic solution?\nh. facilitated diffusion\ni. hypotonic\nj. hypertonic
Answer
Brief Explanations:
- A solution with a lower solute - concentration than another is hypotonic (I).
- When a cell is in a hypertonic solution, water leaves the cell and it shrinks (A).
- A solution with a higher solute - concentration than another is hypertonic (J).
- Movement of particles from high to low concentration through a protein is facilitated diffusion (H).
- Diffusion of water through a selectively permeable membrane is osmosis (C).
- In an isotonic solution, a cell maintains its shape (G).
- Movement of particles from high to low concentration is simple diffusion (F).
- When the concentration of two solutions is the same, they are isotonic (B).
- Movement of molecules from high to low concentration without energy is passive transport (D).
- When a cell is in a hypotonic solution, water moves into the cell (E).
Answer:
- I. hypotonic
- A. it shrinks
- J. hypertonic
- H. facilitated diffusion
- C. osmosis
- G. It maintains its shape
- F. simple diffusion
- B. isotonic
- D. passive transport
- E. into the cell