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Question
which statements describe examples of facilitated diffusion? an epithelial cell releases calcium ions against their concentration gradient using a membrane pump and the energy of another concentration gradient. a plant cell loses water directly through its plasma membrane during plasmolysis in a hypertonic solution. a neuron allows potassium ions to leave the cell down their concentration gradient using a membrane channel. an erythrocyte low on glucose replenishes its supply using a membrane protein to transport glucose down its concentration gradient. an inner ear hair cell allows potassium ions to flow down their concentration gradient after sound waves stimulate a membrane protein. a neuron moves potassium ions into the cell against their concentration gradient using a membrane pump and cellular energy.
Facilitated diffusion is the passive transport of molecules or ions across a biological membrane via specific transport proteins (channels or carriers) down their concentration gradient.
- The first option is active transport as it involves moving ions against the concentration - gradient using energy.
- The second option is simple diffusion of water (osmosis) as water moves directly through the plasma membrane.
- The third option is facilitated diffusion as potassium ions leave the neuron down their concentration gradient through a membrane channel.
- The fourth option is facilitated diffusion as glucose is transported down its concentration gradient using a membrane protein.
- The fifth option is facilitated diffusion as potassium ions flow down their concentration gradient through a membrane protein after sound - wave stimulation.
- The sixth option is active transport as it involves moving potassium ions against the concentration gradient using cellular energy.
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- A neuron allows potassium ions to leave the cell down their concentration gradient using a membrane channel.
- An erythrocyte low on glucose replenishes its supply using a membrane protein to transport glucose down its concentration gradient.
- An inner ear hair cell allows potassium ions to flow down their concentration gradient after sound waves stimulate a membrane protein.