BIOLOGY CONNECT ACCESS CARD
12th Edition
ISBN: 9781264037452
Author: Raven
Publisher: MCG
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Chapter 36, Problem 3A
Summary Introduction
Introduction:
Water potential is the summation of the potential pressure and the osmotic potential. The potential pressure is the pressure that the water exerts ion another solution. The osmotic potential is defined as the movement of water from solution of higher concentration to the lower concentration solutions.
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You are working with cells that have an internal solute concentration of 5mM solute. This solute is large and ionized. You place them in a medium that has a concentration of 7.7 mM solute. What will happen?
a.
The cells will swell initially, then return to their original size.
b.
The cells will shrink in size.
c.
I do not expect anything to happen.
d.
The cell will burst.
The figure below shows a U-shaped tube with the same level of water (green color) at both sides. What will likely happen if solutes will be added on the left side? Choose the best answer
A. The left region with high solutes will have higher water potential.
B. The left region with high solutes will have lower water potential.
C. The water will move from the region with low solutes and high water potential to the region with high solutes and low water potential.
D. The water on the right region will decrease as it moves to the opposite region.
A, C, and D
B, C, and D
What is osmosis?
a.
the process where water diffuses across the cells' membrane from an area of lower water concentration to an area of higher water concentration
b.
Where a solute diffuses across the cell membrane from an area of higher to lower concentration
c.
the process where water diffuses across a cells' membrane to an equal concentration of water on both sides of the membrane
d.
The process where a solute diffuses into water through membranous sacks not using energy
Chapter 36 Solutions
BIOLOGY CONNECT ACCESS CARD
Ch. 36.1 - Predict the direction of water movement based on...Ch. 36.1 - Prob. 2LOCh. 36.2 - Prob. 1LOCh. 36.2 - Prob. 2LOCh. 36.3 - Prob. 1LOCh. 36.3 - Prob. 2LOCh. 36.4 - Prob. 1LOCh. 36.4 - Prob. 2LOCh. 36.5 - Prob. 1LOCh. 36.6 - Prob. 1LO
Ch. 36.6 - Prob. 2LOCh. 36 - What would w, s, and p of the cell in figure 36.5a...Ch. 36 - Prob. 2DACh. 36 - Data analysis Comparative analyses of fossil and...Ch. 36 - Prob. 1IQCh. 36 - Which of the following is an active transport...Ch. 36 - The water potential of a plant cell is the a. stun...Ch. 36 - Hydrogen bonding between water molecules results...Ch. 36 - Water movement through cell walls is a....Ch. 36 - Prob. 5UCh. 36 - The formation of an air bubble in the xylem is...Ch. 36 - Prob. 7UCh. 36 - Stomata open when guard cells a. take up...Ch. 36 - Prob. 9UCh. 36 - A plant must expend energy to drive a....Ch. 36 - Which of the following statements is inaccurate?...Ch. 36 - If you could override the control mechanisms that...Ch. 36 - Prob. 3ACh. 36 - If you were able to remove the aquaporins from...Ch. 36 - Prob. 5ACh. 36 - If you fertilize your houseplant too often, you...Ch. 36 - How could you detect a plant with a mutation in a...Ch. 36 - Prob. 3SCh. 36 - Prob. 4SCh. 36 - A carrot is a biennial plant. In the first year of...
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Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, biology and related others by exploring similar questions and additional content below.Similar questions
- You are working with cells that have an internal solute concentration of 5mM solute. This solute is large and ionized. You place them in a medium that has a concentration of 7.7 mM solute. What will happen? (More than one answer may be applicable) a. The cells will swell initially, then return to their original size. b. The cell will burst. c. The cells will shrink in size. d. I do not expect anything to happen.arrow_forwardSuppose one of your cells has a solute concentration of 10%. If we put it in a glass of sugar water that has a 15% solute concentration, what will happen to the cell as a result of osmosis? A. water will move into the cell B. nothing C. its volume will fluctuate up and down D. water will leave the cell E. sugar will move into the cellarrow_forwardIf ENa is + 60 mV, [Na] out/in is [150]/[15], and Vm is +30 mV, which answer CORRECTLY describes Na+ diffusional, electrostatic, and overall net fluxes? a. Diffusion IN, electrostatics OUT, net flux OUT b. Diffusion IN electrostatics IN, net flux IN c. Diffusion OUT, electrostatics OUT, net flux OUTarrow_forward
- In a beaker containing 0% NaCl, you place a cell which contains 0.9% NaCl. NaCl doesn t cross the membrane. What will be the result?" a There will be net movement of water into the cell. b There will be net movement of NaCl into the cell. c There will be net movement of water out of the cell. d There will be net movement of NaCl out of the cell. e The cell will swell.arrow_forwardThe image illustrates passive and active transport across the cell membrane. (Use the diagram to answer questions A-C) A. 1. Which section shows active transport?2. Explain why or how can you tell?3. Does the cell expend energy in this transport?4. Why or why not? B. 1. Which section shows diffusion?2. What type of solute molecules may be moved by this type of transport? C. Which of these sections are considered passive transport? Explain.arrow_forwardSuppose that you have a splinter that is embedded so deep in your foot that you cannot remove it with tweezers. How could you use what you learned in this unit as a first-aid remedy in this situation? Select one: O A. Use active transport to your advantage to draw water into your foot. O B. Use osmosis to your advantage by placing your foot in a hypotonic solution. C. Use osmosis to your advantage by placing your foot in a hypertonic solution. D. Use an artificial concentration gradient to draw water into your foot. E. Use osmosis to your advantage by placing your foot in an isotonic solution.arrow_forward
- When a cell is placed in a hypotonic solution,a. solute exits the cell to equalize the concentration on both sidesof the membrane.b. water exits the cell toward the area of lower solute concentration.c. water enters the cell toward the area of higher solute concentration.d. solute exits and water enters the cell.arrow_forwardYou have an intact flaccid cell with a solute potential of -1.22MPa, you dropped the cell in a solution of 4M concentration at 20°C. a) In which direction water will flow? Why? b) At equilibrium, what will be the cell and solution: a. Water potential b. Osmotic potential c. Pressure potentialarrow_forwardIf a cell is hypertonic to its environment, what may happen as a result of osmosis? A. its volume may fluctuate up and down B. nothing C. it may shrivel up D. solutes may move out of the cell E. it may explodearrow_forward
- Choose the best answer When a cell is placed in a hypertonic solution,a. solute exits the cell to equalize the concentration on both sides ofthe membrane.b. water exits the cell toward the area of lower solute concentration.c. water exits the cell toward the area of higher soluteconcentration.d. there is no net movement of water or solute.arrow_forwardplant cells with an aqueous potential of -600kPa were placed in different aqueous potentials. Determine in which of the following cases after 10 minutes the cells were blocked, started plasmolysis or completely subjected to the latter. Solution A is -400kPa, solution B is - 600kPa, solution C is -900kPa and solution D is distilled waterarrow_forwardWhat ion is found in high concentration inside the cell relative to outside of the cell? A. Sodium B. Chloride C. Potassium D. None of the abovearrow_forward
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