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The number of solute particles outside a cell can vary widely depending on the type of solution surrounding the cell and its concentration. In a typical physiological environment, such as extracellular fluid, there are numerous solute particles including ions (like sodium and potassium), nutrients (like glucose), and waste products. The concentration of these solute particles is crucial for maintaining osmotic balance and proper cell function. For specific values, one would need to consider the particular conditions and types of solutes present.
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How many solute particles are outside a cell?
The number of solute particles outside a cell depends on the type of solute and its concentration in the surrounding solution. In general, the concentration gradient of solute particles outside the cell influences the movement of water and other molecules across the cell membrane. This can vary widely based on the environment, such as in freshwater, saline, or nutrient-rich solutions. To determine the exact number, you would need specific information about the solute concentration in the external environment.
Choose the CORRECT statement about solute concentrations or particles inside and outside the cell?
To determine the correct statement about solute concentrations or particles inside and outside a cell, we must consider the context of osmosis and diffusion. Typically, if a cell is in a hypertonic solution, the concentration of solutes outside the cell is higher than inside, causing water to move out of the cell. Conversely, in a hypotonic solution, the concentration outside is lower, leading to water entering the cell. The isotonic condition means equal solute concentrations inside and outside, resulting in no net movement of water.
Diffusion of a solute into a cell occurs when the solute is?
I believe the answer is when it is uncharged.
Which term refers to a cell that has more solute on the inside than on the outside?
not hypertonic solution
How do different solutions affect cell volume and concentration?
Different solutions can affect cell volume and concentration through processes like osmosis. When a cell is placed in a hypotonic solution (lower solute concentration outside), water moves into the cell, causing it to swell. Conversely, in a hypertonic solution (higher solute concentration outside), water exits the cell, leading to shrinkage. Isotonic solutions maintain cell volume as solute concentrations are balanced inside and outside the cell.
How many solute particles are outside a cell?
The number of solute particles outside a cell depends on the type of solute and its concentration in the surrounding solution. In general, the concentration gradient of solute particles outside the cell influences the movement of water and other molecules across the cell membrane. This can vary widely based on the environment, such as in freshwater, saline, or nutrient-rich solutions. To determine the exact number, you would need specific information about the solute concentration in the external environment.
Choose the CORRECT statement about solute concentrations or particles inside and outside the cell?
To determine the correct statement about solute concentrations or particles inside and outside a cell, we must consider the context of osmosis and diffusion. Typically, if a cell is in a hypertonic solution, the concentration of solutes outside the cell is higher than inside, causing water to move out of the cell. Conversely, in a hypotonic solution, the concentration outside is lower, leading to water entering the cell. The isotonic condition means equal solute concentrations inside and outside, resulting in no net movement of water.
Which description represents the effect of osmosis on a plant cell when the concentration of particles is greater inside the cell than outside?
In this scenario, water will move into the plant cell through osmosis due to the higher concentration of particles inside the cell. This influx of water will cause the cell to swell and may lead to turgor pressure, providing structural support to the cell.
What is a cell in when solute concentrations inside and outside the cell are equal?
Isotonic.
A cell is in what when solute concentration inside and outside the cell are equal?
Isotonic.
A cell is in when solute concentration inside and outside the cell are equal?
Isotonic.
How does solute concentration affect diffusion osmosis?
Solute concentration affects diffusion and osmosis by creating a concentration gradient. Higher solute concentration outside the cell will cause water to move out of the cell, leading to a decrease in cell volume. Lower solute concentration outside the cell will cause water to move into the cell, increasing its volume.
Diffusion of a solute into a cell occurs when the solute is?
I believe the answer is when it is uncharged.
What are the types of solution outside the cell?
The two main types of solutions outside the cell are hypotonic solutions, where the solute concentration is lower outside the cell causing water to move into the cell, and hypertonic solutions, where the solute concentration is higher outside the cell causing water to move out of the cell. These solutions can affect the cell's size and function.
What are three types of solutions that can occur during osmosis?
Hypotonic solution: when the solute concentration is lower outside the cell causing water to move into the cell. Hypertonic solution: when the solute concentration is higher outside the cell causing water to move out of the cell. Isotonic solution: when the solute concentration is equal inside and outside the cell resulting in no net movement of water.
What are the types of solution of osmosis?
The types of solutions in osmosis are hypertonic, hypotonic, and isotonic. In a hypertonic solution, the concentration of solute is higher outside the cell compared to inside, causing water to move out of the cell. In a hypotonic solution, the concentration of solute is higher inside the cell compared to outside, causing water to move into the cell. In an isotonic solution, the concentrations of solute inside and outside the cell are equal, so there is no net movement of water.
Is the cell below in a hypertonic or hypotonic?
Hypotonic means higher amount of h20 and hypertonic means a smaller amount of h20. If the cell was for example in saltwater and it isn't meant to live in salt water, the inside of the cell would be hypotonic and outside would be hypertonic
