A researcher hypothesizes that a solute enters a cell by facilitated diffusion. He places different concentrations of the solute in the extracellular medium to obtain the following data. Do his data support his hypothesis?

A. yes because the rate of solute entry into the cell is the same for high concentrations of solute

B. yes because the rate of solute entry into the cell changes for low concentrations of solute

 

C. no because the rate of solute entry into the cell is the same for high concentrations of solute

 

D. no because the rate of solute entry into the cell changes for low concentrations of solute

Transcribed Image Text:

The image displays a graph illustrating the relationship between the concentration of solute and the rate of entry into a cell. **Graph Details:** - **X-axis (Horizontal):** Labeled as "Concentration of Solute." The axis indicates increasing concentration levels from left to right. - **Y-axis (Vertical):** Labeled as "Rate of Entry into Cell." This axis represents the rate at which solute enters the cell, increasing from bottom to top. - **Curve Description:** The graph features a blue curve that starts at the origin and initially rises steeply, gradually flattening out as it moves rightward. This curve suggests a hyperbolic relationship between solute concentration and rate of entry, indicating that as the solute concentration increases, the rate of entry into the cell rises rapidly at first and then plateaus, implying saturation where further increases in solute concentration result in minimal changes in the rate of entry.