1. 2.2.6 Movement through Cell Membranes
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2. Q. Water enters the outermost cells of the root by osmosis
Q. Water enters the outermost cells of the root by osmosis. What does this tell you about the cell sap of these outermost cells?
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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4. Q. Osmosis has been described as a special case of diffusion
Q. Osmosis has been described as a special case of diffusion. Explain why.
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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6. Q. What is meant by a selectively permeable membrane?
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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8. Q. Give locations in a cell at which there is a selectively permeable membrane.
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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10. Q. What is diffusion? Active transport Support
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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12. Q. Why is diffusion alternatively known as passive transport?
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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14. Q. Explain the biological basis for the use of high sugar or high salt concentrations in the preservation of food.
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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16. Q. What did you use as the selectively permeable membrane in your investigation of osmosis?
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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18. Q. What is active transport?
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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20. Q. Name two substances that enter a human muscle cell by diffusion.
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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22. Q. Suggest an advantage to the cell of having a selectively permeable membrane.
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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24. Q. Explain the term turgor.
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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26. Q. Give an example of osmosis in plants.
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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28. Q. Name a substance found in a plant cell vacuole.
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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30. Q. Give a feature of a plant cell that allows it to remain turgid for long periods.
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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32. Q. True or False. Plant cell walls are fully permeable.
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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34. Q. Water for photosynthesis enters the roots of plants by what process?
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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36. Q. Suggest a way in which turgor is of value to plants.
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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38. Q. Name the terms used in biology to describe the movement of substances through cell membranes.
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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40. Q. What process is responsible for the uptake of minerals in a plant?
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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42. Q. What is meant by osmoregulation?
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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44. Q. Where precisely does water enter a plant?
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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46. Q. The drooping of the leaves of a plant resulting from loss of turgidity due to lack of water is known as …
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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48. Q. In which tissue does water ascend through the plant?
Active transport
Movement of molecules against a concentration gradient using energy
Substances can be allowed or prevented in or out
Allowing some substances to pass through
Movement of molecules from area of high concentration to area of lower concentration
Support
Bacteria lose water by osmosis, this leads to inactivity or death
Movement of water along a concentration gradient through a selectively permeable membrane
Vacuole; Cell wall; Cell sap
Chloroplast; Mitochondrion; Nucleus; Vacuole
No energy (ATP) required
Visking tubing
Controlling the water/salt balance within an organism
Osmosis
Water movement between cells or from soil to root
Diffusion; Osmosis; Active transport
Oxygen; Glucose; Water; Amino acids; Phosphate; Iron
Water; Sugar; Sap; Salt(s); Protein
FALSE
TRUE
Pressure of cell contents on cell wall
Wilting
Lower water concentration; Higher solute concentration
Root hairs
Xylem

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