Modern technology gives us many things.

a cell whose cytoplasm has a concentration of 0.02 molar glucose is placed in a test tube of water containing 0.02 molar glucose. assuming that glucose is not actively transported into the cell, which of the following terms describes the tonicity of the external solution relative to the cytoplasm of the cell?

0

a cell whose cytoplasm has a concentration of 0.02 molar glucose is placed in a test tube of water containing 0.02 molar glucose. assuming that glucose is not actively transported into the cell, which of the following terms describes the tonicity of the external solution relative to the cytoplasm of the cell?, The cell described in Example 1 would be considered to be in a state of isotonic equilibrium with its surrounding solution. This is because the concentration of glucose is the same inside and outside of the cell, so there is no net movement of water across the cell membrane.

</p>
<h2>a cell whose cytoplasm has a concentration of 0.02 molar glucose is placed in a test tube of water containing 0.02 molar glucose. assuming that glucose is not actively transported into the cell, which of the following terms describes the tonicity of the external solution relative to the cytoplasm of the cell?</h2>
<p>

a cell whose cytoplasm has a concentration of 0.02 molar glucose is placed in a test tube of water containing 0.02 molar glucose. assuming that glucose is not actively transported into the cell, which of the following terms describes the tonicity of the external solution relative to the cytoplasm of the cell?

The cell in question is placed in a test tube of water that has the same concentration of glucose as the cell's cytoplasm. In this case, the external solution is said to be isotonic with respect to the cytoplasm.

Read More:

sim số đẹp đại phát
is it safe to donate plasma

Tonicity

Tonicity

The cell is surrounded by a membrane; it also contains ribosomes and DNA, but no mitochondria. According to this information is the one described

A cell is surrounded by a membrane; it also contains ribosomes and DNA, but no mitochondria. According to this information, the cell described

The cell is surrounded by a membrane; it also contains ribosomes and DNA, but no mitochondria. According to this information, the cell described

The cell is surrounded by a membrane; it also contains ribosomes and DNA, but no mitochondria. According to this information, the cell described has a high concentration of osmotically active particles relative to the surrounding water, making it hypotonic.

Isotonic

Isotonic

The cell is the basic unit of all life. All organisms are made up of cells, which are the smallest units that can perform all the functions necessary for life. Cells are very complex, and their structure and function vary depending on their type and purpose. For example, there are different types of cells that make up the different tissues and organs in your body.

Cells come in many different shapes and sizes, but they all have certain common features. All cells have a plasma membrane that surrounds and protects the cell, and all cells contain DNA, the genetic material that controls the cell's activities. Most cells also have organelles, small structures that perform specific functions within the cell.

Cells reproduce by dividing into two new cells. This process is called mitosis, and it ensures that each new cell has a copy of the DNA from the original cell.

Cells are constantly changing and growing as they carry out their functions. When something

Hypertonic

Hypertonic

A cell is surrounded by a membrane; it also contains ribosomes and DNA, but no mitochondria. According to this information is the one describedThe cytoplasm of the cell has a concentration of 0.02 molar glucose, and the external solution has a concentration of 0.02 molar glucose. Since there is no actively transport of glucose into the cell, the external solution is considered to be hypertonic relative to the cytoplasm of the cell.

Hypotonic

Hypotonic

A cell is surrounded by a membrane; it also contains ribosomes and DNA, but no mitochondria. According to this information is the one describedThe cell is the basic unit of structure and function in all living organisms. The cytoplasm of a cell contains a variety of biomolecules, including proteins, carbohydrates, lipids, and nucleic acids. In addition to these macromolecules, the cytoplasm also contains small amounts of inorganic ions, such as sodium, potassium, and chloride.

Osmotic pressure

Osmotic pressure

Based on the information in Example 1, if a cell with a cytoplasm concentration of 0.02 molar glucose is placed in a test tube of water containing 0.02 molar glucose, the external solution is said to be isotonic with respect to the cytoplasm of the cell.

Osmosis

Osmosis

The cell in question is a plant cell, as it has a cell wall. The cytoplasm has a concentration of 0.02 molar glucose, while the external solution contains 0.02 molar glucose. Since there is no active transport of glucose into the cell, the external solution is said to be isotonic with respect to the cytoplasm.

Diffusion

Diffusion

Osmosis is the diffusion of water across a semipermeable membrane. A semipermeable membrane is a barrier that allows some molecules to pass through but not others. In the case of osmosis, the semipermeable membrane only allows water molecules to pass through.

The cell is the basic unit of life. All living things are made up of cells. Cells are very small; most are too small to be seen with the naked eye. The study of cells is called cell biology.

Equilibrium

Equilibrium

The cell in question is surrounded by a membrane, which also contains ribosomes and DNA, but no mitochondria. The interior of the cell, the cytoplasm, has a concentration of 0.02 molar glucose. The test tube of water in which it is placed has a concentration of 0.02 molar glucose as well. Therefore, the external solution is isotonic with respect to the cytoplasm of the cell.

Conclusion

Conclusion

The external solution is isotonic with respect to the cytoplasm of the cell because the concentrations of osmotically active particles are equal on both sides of the cell membrane. In this situation, there is no net movement of water across the cell membrane.