The cytoplasm of an animal cell has a glucose concentration of 0.06M. It is placed in a beaker with a solution that has a glucose concentration of 1.0 M. What will happen to the cell?

it will swell and lyse (gain mass)

there is not enough information

The cytoplasm of an plant cell has a glucose concentration of 0.9M. It is placed in a beaker with a solution that has a glucose concentration of 0.05 M. What will happen to the cell?

it will swell and become turgid

it will swell and lyse (gain mass)

The cytoplasm of an plant cell has a glucose concentration of 0.9M. It is placed in a beaker with a solution that has a glucose concentration of 0.05 M. What is the tonicity of the solution in the beaker compared to the solution in the cell?

there is not enough information

The cytoplasm of a plant cell has a glucose concentration of 0.9M. It is placed in a beaker with a solution that has a glucose concentration of 0.05 M. Which solution has a higher water potential?

there is not enough information

The cytoplasm of a plant cell has a glucose concentration of 0.9M. It is placed in a beaker with a solution that has a glucose concentration of 0.05 M. Which solution has a higher osmotic potential?

there is not enough information

The cytoplasm of a plant cell has a glucose concentration of 0.9M. It is placed in a beaker with a solution that has a glucose concentration of 0.05 M. Which solution has a higher concentration of water?

there is not enough information

The cytoplasm of a plant cell has a glucose concentration of 0.9M. It is placed in a beaker with a solution that has a glucose concentration of 0.05 M. Which solution has a higher solute concentration?

there is not enough information

The cytoplasm of an animal cell has a glucose concentration of 0.06M. It is placed in a beaker with a solution that has a glucose concentration of 1.0 M. What is the tonicity of the solution compared to the cell?

there is not enough information

The cytoplasm of an animal cell has a glucose concentration of 0.06M. It is placed in a beaker with a solution that has a glucose concentration of 1.0 M. Which solution has a higher water potential?

the water potential in the cell and beaker are equal

there is not enough information

The cytoplasm of an animal cell has a glucose concentration of 0.06M. It is placed in a beaker with a solution that has a glucose concentration of 1.0 M. Which solution has a higher osmotic potential?

there is not enough information

The cytoplasm of an animal cell has a glucose concentration of 0.06M. It is placed in a beaker with a solution that has a glucose concentration of 1.0 M. Which solution has a higher concentration of water?

there is not enough information

The cytoplasm of an animal cell has a glucose concentration of 0.06M. It is placed in a beaker with a solution that has a glucose concentration of 1.0 M. Which solution has a higher solute potential?

there is not enough information

Which of the following correctly describes what would happen to a plant cell in a hypertonic solution?

The cell membrane would pull away from the cell wall (plasmolyze) and the cell would lose mass.

The cell would swell and become turgid.

The cell would remain the same size and would be flaccid.

Which of the following correctly describes what would happen to a plant cell in a hypotonic solution?

The cell would swell and become turgid.

The cell membrane would pull away from the cell wall (plasmolyze) and the cell would lose mass.

The cell would remain the same size and would be flaccid.

Which of the following correctly describes what would happen to a plant cell in a isotonic solution?

The cell would remain the same size and would be flaccid.

The cell membrane would pull away from the cell wall (plasmolyze) and the cell would lose mass.

The cell would swell and become turgid.

Which of the following correctly describes what would happen to a animal cell in a isotonic solution?

The cell would remain the same size and there would be no net movement of water.

The cell membrane would pull away from the cell wall (plasmolyze) and the cell would lose mass.

The cell would swell and become turgid.

Which of the following correctly describes what would happen to a animal cell in a hypertonic solution?

The cell would shrivel and lose mass.

The cell would swell and become turgid.

The cell would remain the same size and there would be no net movement of water.

Which of the following correctly describes what would happen to a animal cell in a hypotonic solution?

The cell would shrivel and lose mass.

The cell would swell and become turgid.

The cell would remain the same size and there would be no net movement of water.

Which of the following would NOT increase the fluidity of the cell membrane?

an increase in temperature (as temperature increases, molecules move faster)

an increase in the amount of unsaturated fatty acid tails on the phospholipids (unsaturated fatty acid tails are bent and are less likely to stick together)

Which of the following does NOT correctly describe active transport?

It involves the movement of substances down/with the concentration gradient

It involves the movement of substances from low to high concentration

It involves the movement of substances against the concentration gradient

Which of the following correctly describes passive transport?

It involves the movement of substances down/with the concentration gradient

It involves the movement of substances from low to high concentration

It involves the movement of substances against the concentration gradient

Cell Transport Test Review AP Biology

Quiz

•

Biology

•

9th - 12th Grade

•

Practice Problem

•

Medium

•

NGSS

HS-LS2-4, HS-PS1-5

Standards-aligned

Nicole Karle

Used 373+ times

FREE Resource

46 questions

Show all answers

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What term is used to describe proteins that span the entire cell membrane?

transmembrane proteins

transport proteins

carrier proteins

all of these are types of proteins that cross the entire membrane

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What does the term amphipathic mean?

a molecule that contains both polar (hydrophilic) and nonpolar (hydrophobic) regions

a molecule that is entirely polar (hydrophilic)

a molecule that is entirely nonpolar (hydrophobic)

a molecule that can completely dissolve in water

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Oxygen and carbon dioxide can cross the cell membrane easily on their own. Which of the following best explains why this is possible?

They are polar and are attracted to the nonpolar tails of the phospholipids that make up the cell membrane.

They are both small and nonpolar(hydrophobic) and are attracted to the nonpolar(hydrophobic) tails that make up most of the cell membrane.

They are large and nonpolar and move easily by diffusion across the membrane.

They move through specialized channels that allow polar molecules to easily enter or exit a cell.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What are the structures called that water uses to cross the cell membrane?

aquaporins

peripheral proteins

ion transporters

water space ships

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Why does water need to use transport proteins to enter or exit a cell?

It is a nonpolar molecule and is repelled by the nonpolar (hydrophobic) phospholipid tails that make up most of the cell membrane.

It is a polar molecule that is repelled by the nonpolar (hydrophobic) phospholipid tails that make up the majority of the cell membrane.

It is a polar molecule that is repelled by the polar (hydrophilic) phospholipid heads that make up the majority of the cell membrane.

Because it is extra special

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Why do ions need to use transport proteins to enter or exit a cell?

They are nonpolar molecules that are repelled by the nonpolar (hydrophobic) phospholipid tails that make up most of the cell membrane.

They are polar molecules that are repelled by the nonpolar (hydrophobic) phospholipid tails that make up the majority of the cell membrane.

They are polar molecules that are repelled by the polar (hydrophilic) phospholipid heads that make up the majority of the cell membrane.

Scientists aren't really sure why they need them.

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Which of the following correctly describes the process of osmosis?

Movement of water from high to low concentrations across a semi-permeable membrane.

Movement of large, polar molecules from low to high concentration across a semi-permeable membrane.

Movement of ions through transport proteins across a semi-permeable membrane.

Movement of any particle from high to low concentration.

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46 questions

What term is used to describe proteins that span the entire cell membrane?

What does the term amphipathic mean?

Oxygen and carbon dioxide can cross the cell membrane easily on their own. Which of the following best explains why this is possible?

What are the structures called that water uses to cross the cell membrane?

Why does water need to use transport proteins to enter or exit a cell?

Why do ions need to use transport proteins to enter or exit a cell?

Which of the following correctly describes the process of osmosis?

Which of the following correctly describes the process of facilitated diffusion?

Which of the following correctly describes the process of simple diffusion?

Which of the following is NOT a type of passive transport?

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